Search ResultsThermodynamics
1. Michael Abraham and Zeev Olami, "Thermodynamics of rotating quantum systems," Physica A 233, 503-514 (1996)
2. A. E. Allahverdyan and Th. M. Nieuwenhuizen, "Optimizing the classical heat engine," Phys. Rev. Lett. 85, 232-235 (2000) cond-mat/0005383
3. B. Andresen, P. Salamon, and R. S. Berry, "Thermodynamics in finite time," Phys. Today (9), (1984)
4. A. S. Arrott, "The Zilch cycle: An application of the First Law of Thermodynamics," Am. J. Phys. 45, 672-3 (1977)
5. Ralph Baierlein, "The meaning of temperature," Physics Teacher 28 (2), 94-96 (1990)
6. M. Bailyn, "Lambda versus first-order transitions," Am. J. Phys. 56, 147 (1988)
7. G. Barnes, "The two cycles of the rotary Curie-point heat engine," Am. J. Phys. 57, 223 (1989)
8. A. Ben-Naim, "Is mixing a thermodynamic process?," Am. J. Phys. 55, 725 (1987)
9. C. H. Bennett, "Demons, Engines and the Second Law," Sci. Amer. 257 (11), 108 (1987)
10. N. Bloemergen, "The concept of temperature in magnetism," Am. J. Phys. 41, 325 (1973)
11. Barry M. Casper and Susan Frerer, "Gibbs paradox paradox," Am. J. Phys. 41, 509 (1973)
12. D. R. Chenoweth and S. Paolucci, "On pressure change occurring during gas mixing," Am. J. Phys. 57, 463 (1989)
13. A. Compagner, "Thermodynamics as the continuum limit of statistical mechanics," Am. J. Phys. 57, 106 (1989)
14. William H. Cropper, "Carnot's function: origins of the thermodynamic concept of temperature," Am. J. Phys. 55, 120 (1987)
15. F. L. Curzon and B. Ahlborn, "Efficiency of a Carnot engine at maximum power output," Am. J. Phys. 43, 22 (1975)
16. C. S. Dawm, M. B. Kennel, C. E. A. Finney, and F. T. Connolly, "Observing and modeling nonlinear dynamics in an internal combustion machine," Phys. Rev. E 57, 2811 (1998)
17. E. W. Dearden, "Expansion formulae for first-order partial derivatives of thermal variables," Eur. J. Phys. 16, 76 (1995)
18. David H. Frisch, "The microscopic definition of entropy," Am. J. Phys. 34, 1171 (1966)
19. J. M. Gordon, "Generalized power versus efficiency characteristics of heat engines: The thermoelectric generator as an instructive illustration," Am. J. Phys. 59, 551 (1991)
20. H. W. Graben and John R. Ray, "Fourth adiabatic ensemble," J. Chem. Phys. 93, 4296 (1990)
21. H. W. Graben and John R. Ray, "Unified treatment of adiabatic ensembles," Phys. Rev. A 43, 4100 (1991)
22. L. A. Guildner, "The measurement of thermodynamic temperature," Phys. Today (12), (1982)
23. A. Calvo Hernandez, "On an irreversible air standard Otto-cycle model," Eur. J. Phys. 16, 73 (1995)
24. A. Calvo Hernandez, J. M. M. Roco, A. Medina, and S. Velasco, "An irreversible and optimized four stroke cycle model for automotive engines," Eur. J. Phys. 17, 11 (1996)
25. R. K. Hobbie, "Osmotic Pressure in the Physics Course for Students of the Life Sciences," Am. J. Phys. 42, 188 (1974)
26. P. Kariotogloy, "Understanding pressure: didactical transpositions and pupils' conceptions," Phys. Educ. 25, 92 (1990)
27. G. S. Kell, "Heat Engines That Use a Gravitational Field," Am. J. Phys. 42, 209 (1974)
28. Martin J. Klein, "Maxwell, his demon, and the second law of thermodynamics," Am. Sci. 58, 84 (1970)
29. P. T. Landsberg, "Teaching Thermodynamics," 451, (1985)
30. Harvey S. Leff, "Available work from a finite source and sink: how effective is a Maxwell demon?," Am. J. Phys. 55, 701 (1987)
31. Harvey S. Leff, "Thermal efficiency at maximum work output: new results for old heat engines," Am. J. Phys. 55, 602 (1987)
32. Elliot H. Lieb and Jakob Yngvason, "A fresh look at entropy and the second law of thermodynamics," Phys. Today 53 (5), 32-37 (2000)
33. Jakob Yngvason and Elliott H. Lieb, "A guide to entropy and the second law of thermodynamics," Notices Amer. Math. Soc. 45, 571-581 (1998) math-ph/9805005
34. V. J. Menon and D. C. Agrawal, "First law of thermodynamics from Hamiltonian viewpoint," Eur. J. Phys. 16, 83 (1995)
35. E. N. Miranda, "When an irreversible cooling} or heating becomes reversible," European Journal of Physics 21, 239 (2000)
36. Ye Rengui, "The logical connection between special relativity and thermodynamics," Eur. J. Phys. 17, 265 (1996)
37. Morton H. Rubin, "Figures of merit for energy conversion processes," Am. J. Phys. 46, 637 (1978)
38. S. Rubio et al, "Misconceptions about heat and temperature"
39. Hans Henrik Rugh, "A geometric, dynamic approach to thermodynamics," chao-dyn/9703013
40. J. R. Sanmartin, "A derivation of thermodynamic principles," Eur. J. Phys. 17, 76 (1996)
41. Bruce Sherwood, "Pseudowork and real work," Am. J. Phys. 51, 597 (1983)
42. Bruce Sherwood and W. H. Bernard, "Work and heat transfer in the presence of sliding friction," Am. J. Phys. 52, 1001 (1984)
43. R. A. Simon, "Stirling's cycle and the Second law of thermodynamics," Am. J. Phys. 52, 496 (1984)
44. Jos Uffink, "Bluff your way in the Second Law of Thermodynamics," cond-mat/0005327
45. Y. Zimmels, "Thermodynamics in the presence of electromagnetic fields," Phys. Rev. E 52, 1452 (1995)
46. Th. M. Nieuwenhuizen, "Thermodynamics of black holes: An analogy with glasses," Phys. Rev. Lett. 81, 2201 (1998)
Probability
1. E. Fischbein and A. Gazit, "Does the teaching of probability improve probabilistic intuitions?," Educ. Stud. Math 15, 1 (1984)
2. I. J. Good, "Kinds of Probability. Although there are at least five kinds of probability, we can get along with just one kind," Science 129, 443 (1959)
3. Anne S. Hawkins and Ramesh Kapadia, "Children's conceptions of probability - a psychological and pedagogical review," Educ. Stud. Math 15, 349 (1984)
4. Massimo Piattelli-Palmarini, "Probability: neither rational nor capricious," Bostonia (2), (1991)
5. Glenn Shafer, "What is probability?," In Perspectives on Contemporary Statistics, edited by David C. Hoaglin and David S. Moore. Mathematical Association of America, MAA Notes Number 21, pp. 93-105. 1992. Also available at
http://www.glennshafer.com/assets/downloads/articles/article46.pdf.
6. Glenn Shafer, "The early development of mathematical probability," in Companion Encyclopedia of the History and Philosophy of the Mathematical Sciences, edited by I. Grattan-Guinness (Routledge, London, 1993), pp. 1293-1302. Also available at
http://www.glennshafer.com/assets/downloads/articles/article50.pdf.
General Statistical Mechanics
1. J. Arnaud, J. M. Boe, L. Chusseau, and F. Philippe, "Illustration of the Fermi-Dirac statistics," Am. J. Phys. 67, 215-221 (1999)
2. C. H. Bennett and R. Landauer, "The Fundamental Physical Limits of Computation," Sci. Amer. (7), (1985)
3. Alastair Bruce and David Wallace, "Critical point phenomena: universal physics at large length scales," The New Physics (1989) Paul Davies Cambridge University Press
4. Stephen G. Brush, "Gadflies and geniuses in the history of gas theory"
5. V. Cerny, "Methods of statistical physics and complex mathematical problems," Eur. J. Phys. 9, 94 (1988)
6. J. Fort, J. A. Gonzalez, J. E. Llebot, and J. Saurina, "Information theory and blackbody radiation," Contemp. Phys. 40, 57-70 (1999)
7. Steven Frautschi, "Entropy in an expanding universe," Science 217, 593 (1982)
8. R. B. Grifiths, "Phase transitions and critical phenomena"
9. Sadri Hassani, "Thermodynamics using coins," European Journal of Physics 21, 41 (2000)
10. R. L. Ingraham, "When can we treat identical particles as distinguishable? An unfamiliar classical limit," Am. J. Phys. 53, 119 (1985)
11. E. T. Jaynes, "Gibbs vs Boltzmann entropies," Am. J. Phys. 33, 391 (1965)
12. A. Mulero, F. Cuadros, and W. Ahumada, "Teaching statistical mechanics of fluids: Microscopic and macroscopic behavior"
13. Joel L. Lebowitz, "Time's arrow and Boltzmann's entropy"
14. Joel L. Lebowitz, "Time's arrow and Boltzmann's entropy"
15. Joel L. Lebowitz, "References on statistical physics"
16. Joel L. Lebowitz, "Microscopic Origins of Irreversible Macroscopic Behavior: An Overview"
17. Joel L. Lebowitz, "Statistical mechanics: A selective review of two central issues," Revs. Mod. Phys. 71, 346 (1999)
18. Joel L. Lebowitz, "Cooperative behavior in Simple and Complex Systems," (1999)
19. George D. J. Phillies, "A novel representation of the dense fluid pressure equation," J. Chem. Phys. 86, 4711 (1987)
20. George D. J. Phillies, "The polythermal ensemble: a rigorous interpretation of temperature fluctuations in statistical mechanics," Am. J. Phys. 52, 629 (1984)
21. George D. J. Phillies, "A second generalized equipartition theorem," J. Chem. Phys. 78, 1620 (1983)
22. Abner Shimony, "The status of the principle of Maximum Entropy," Synthese 63 35 (1985)
23. Arthur V. Tobolsky, "The microcanonical ensemble," Am. J. Phys. 32, 799 (1994)
24. "Simple arguments for the Boltzmann factor," Am. J. Phys. 63, 877 (1995)
Simple Statistical Mechanics Models
1. M. H. Anderson, "Observation of Bose-Einstein condensation in a dilute atomic vapor," Science 269, 198 (1995)
2. Vishnu M. Bannur, Predhiman K. Kaw, and Jitendra C. Parikh, "Statistical mechanics of quartic oscillators," Phys. Rev. E 55, 2525 (1997)
3. P. Bialas, L. Bogacz, Z. Burda, and D. Johnston, "Finite size scaling of the balls in boxes model," Nucl. Phys. B 575, 599-612 (2000) hep-lat/9910047
4. P. Bialas, Z. Burda, and D. Johnston, "Phase diagram of the mean field model of simplicial gravity," Nucl. Phys. B 542, 413-424 (1999) gr-qc/9808011
5. P. Bialas, Z. Burda, and D. Johnston, "Condensation in the Backgammon model," cond-mat/9609264
6. M. A. Cirone, K. Goral, K. Rzazewski, and M. Wilkens, "Bose-Einstein condensation of two interacting particles," cond-mat/0006359
7. Vanderlei Bagnato and Daniel Kleppner, "Bose-Einstein condensation in low-dimensional traps," Phys. Rev. A 44, 7439 (1991)
8. Michael E. Fisher, "Magnetism in one-dimensional systems - the Heisenberg model for infinite spin," Am. J. Phys. 32, 343 (1964)
9. N. H. Fletcher, "Van der Waals' equation and nucleation theory," Eur. J. Phys. 14, 29 (1993)
10. Ben C. Freasier, Cliff E. Woodward, and Richard J. Bearman, "Heat capacity extrema on isotherms in one-dimension: Two particles interacting with the truncated Lennard-Jones potential in the canonical ensemble," J. Chem. Phys. 105, 3686 (1996)
11. G. G. Hall and S. B. Jones, "Information and entropy for a planar box," Am. J. Phys. 41, 213 (1973)
12. Douglas Henderson, "Statistical mechanics of a quantum system of hard lines," Am. J. Phys. 32, 795 (1964)
13. M. Howard Lee, "Equivalence of ideal gases in two dimensions and Landen's relations," Phys. Rev. E 55, 1518-1520 (1997)
14. Humphrey J. Maris and Leo P. Kadanoff, "Teaching the renormalization group," Am. J. Phys. 46, 652 (1978)
15. Robert M. May, "Quantum statistics of ideal gases in two dimensions," Phys. Rev. 133, A1515 (1964)
16. J. P. McKelvey and Ef. F. Pulver, "Fermi statistics of two-dimensional free electron systems," Am. J. Phys. 32, 749 (1964) erratum, Amer. J. Phys. 33, 172 (1965)
17. R. K. Pathria, "An ideal quantum gas in a finite-sized container," Am. J. Phys. 66, 1080 (1998)
18. R. K. Pathria, "Similarities and diferences between Bose and Fermi gases," Phys. Rev. E 57, 2697 (1998)
19. S. Velasco, F. L. Roman, and J. A. White, "Microcanonical single-particle distributions for an ideal gas in a gravitational field," Eur. J. Phys. 16, 80 (1995)
20. Robert Weinstock, "Heat capacity of an ideal free electron gas: a rigorous derivation," Am. J. Phys. 37, 1273 (1969)
21. V. C. Aguilera-Navarro and G. A. Estevez, "Analytic approximation for the chemical potential of an ideal boson system," Am. J. Phys. 56, 456 (1988)
Random walks and probability
1. D. Chowdhury and A. Mookerjee, "Random walk and magnetization of spin clusters in spin glasses," Am. J. Phys. 53, 261 (1985)
2. Peter Griffin, "Accelerating beyond the third dimension: Returning to the origin in simple random walk," Math. Scientist 15, 224-35 (1990)
3. Richard Perline, "Zipf's law, the central limit theorem, and the random division of the unit interval," Phys. Rev. E 54, 220 (1996)
4. E. P. Raposo, S. M. de Oliveira, A. M. Nemirovsky, and M. D. Coutinho-Filho, "Randon walks: A pedestrian approach to polymers, critical phenomena, and field theory," Am. J. Phys. 59, 633 (1991)
5. Joseph Rudnick and George Gaspari, "The shapes of random walks," Science 237, 384 (1987)
6. Charles R. Tolle, Joanne L. Budzien, and Randall A. LaViolette, "Do dynamical systems follow Benford's law?," Chaos 10, 331-337 (2000)
7. Bruce J. West and Michael Shlesinger, "The Noise in Natural Phenomena," Am. Sci. 78, 40 (1990)
Other
1. A. Santos, "An equation of state a la Carnahan-Starling for a five-dimensional fluid of hard hyperspheres," cond-mat/0003011
2. J. Sivardiere, "A mechanical model exhibiting a tricritical point," Am. J. Phys. 54, 172 (1986)
3. Yuhua Song and E. A. Mason, "Analytical equation of state for molecular fluids: comparison with experimental data," Phys. Rev. A 42, 4749 (1990)
4. Yuhua Song, E. A. Mason, and Richard M. Stratt, "Why does the Carnahan-Starling equation work so well?," J. Phys. Chem. 93, 6916 (1989)
5. J. Stephenson, "Hard and soft core equations of state for simple fluids"
6. S. Velasco, F. L. Roman, and J. A. White, "On a paradox concerning the temperature distribution of an ideal gas in a gravitational field," Eur. J. Phys. 17, 43-44 (1996)
7. Duane C. Wallace, "Statistical entropy and a qualitative gas-liquid phase diagram," Phys. Rev. A 38, 469 (1988)
8. J. H. Weiner, "Entropic versus kinetic viewpoints in rubber elasticity," Am. J. Phys. 55, 746 (1987)
9. J. Wheatley and A. Cox, "Natural engines," Phys. Today (8), (1985)
10. James D. White, "The role of surface melting in ice skating," Phys. Teacher 30, 495 (1992)
11. J. Fort, J. Saurina, and P. Roura, "How long does it take to boil an egg? A simple approach to the energy transfer equation," European Journal of Physics 21, 95 (2000)
12. Yaakov Kraftmakher, "Photovoltaic cell: efficiency of energy conversion," European Journal of Physics 21, 159 (2000)
13. L. Bellomonte and R. M. Sperandeo-Mineo, "Analysis of the transition from the Einstein crystal model to the Debye model," European Journal of Physics 21, 203 (2000)
14. P Janik, M. Paluch, L. Tomawski, and J. Ziolo, "RC-model of stretched relaxation," European Journal of Physics 21, 233 (2000)
15. Maciej Lewenstein, Andrezej Nowak, and Bibb Latane, "Statistical mechanics of social impact," Phys. Rev. E 45, 763 (1992)
16. Hisashi Ozawa, "Thermodynamics of frost heaving: A thermodynamic proposition for dynamic phenomena," Phys. Rev. E 56, 2811 (1997)
17. R. U. Ayres and I. Nair, "Thermodynamics and economics," Phys. Today (11), (1984)
18. W. Greiner and H. Stocker, "Hot Nuclear Matter," Sci. Amer. 252, 76 (Jan 1985)
19. Mambi Hu, Baowen Li, and Hong Zhao, "Heat conduction in one-dimensional chains," Phys. Rev. E 57, 1992 (1998)
20. Albert Chang and Russell D. Larsen, "Approach to equilibrium: the wasp and the beetle model," J. Chem. Educ. 68, 297 (1991)
21. Kerry A. Emanuel, "Toward a General theory of Hurricanes," Am. Sci. 76, 371 (1988)
22. Marianne Wiser and Susan Carey, "When heat and temperature were one," in Mental Models, edited by D. Gentner, D and A. Stevens (Erlbaum, Hillsdale, NJ, 1986), pp. 267-297.
23. "Maxwell-Boltzmann distribution"
24. "Johnson noise and Shot noise," MIT lab handout
25. "The Ehrenfests' wind-tree model and the hypothesis of molecular chaos," Eur. J. Phys. 12, 27 (1991)
26. Gregory H. Wannier, "Excerpt on the Kac model from Statistical Physics"
27. A. Georgallas, "The free expansion of an ideal gas into a box: An exactly solvable approach to equilibrium," Phys. Rev. A 35, 3492-3498 (1987)
G1
1. D. Deng, A. S. Argon, and S. Yip, "A molecular dynamics model of melting and glass transition in a two-dimensional material I," Phil. Trans. R. Soc. Lond. A 329, 549-573 (1989)
2. D. Deng, A. S. Argon, and S. Yip, "Topological features of structural relaxations in a two-dimensional model atomic glass II," Phil. Trans. R. Soc. Lond. A 329, 575-593 (1989)
3. D. Deng, A. S. Argon, and S. Yip, "Kinetics of structural relaxations in a two-dimensional model atomic glass III," Phil. Trans. R. Soc. Lond. A 329, 595-612 (1989)
4. Y. Joanna Wong and G. V. Chester, "Monte Carlo study of glassy order in two-dimensional Lennard-Jones systems," Phys. Rev. B 35, 3506-3523 (1987)
5. T. Gaskell, U. Balucani, and R. Vallauri, "Atomic transport in Liquids," Phys. Chem. Liquids 19, 193-239 (1989)
6. Raymond D. Mountain, "Simulation studies of supercooled and glass forming liquids"
7. Raymond D. Mountain and D. Thirumalai, "Activated dynamics, loss of ergodicity, and transport in supercooled liquids," Phys. Rev. E 47, 479 (1993)
8. Raymond D. Mountain and D. Thirumalai, "Ergodicity and activated dynamics in supercooled liquids," Phys. Rev. A 45, R3380 (1992)
9. Raymond D. Mountain and D. Thirumalai, "Ergodic convergence properties of supercooled liquids and glasses," Phys. Rev. A 42, 4574 (1990)
10. Raymond D. Mountain, "Length scales for fragile glass forming liquids," J. Chem. Phys. 102, 5408 (1995)
11. Raymond D. Mountain and D. Thirumalai, "Molecular dynamics study of glassy and supercooled states of a binary mixture of soft spheres," Phys. Rev. A 36, 3300-3311 (1987)
12. Raymond D. Mountain and D. Thirumalai, "Dynamical aspects of anisotropic correlations in supercooled liquids," J. Chem. Phys. 92, 6116-6123 (1990)
13. D. Thirumalai and Ray D. Mountain, "Measures of effective ergodic convergence in liquids," J. Phys. Chem. 93, 6975 (1989)
14. D. Thirumalai and T. R. Kirkpatrick, "Random solutions from a regular density functional Hamiltonian: a static and dynamical theory for the structural glass transition," J. Phys. A 22, L149 (1989)
15. M. J. D. Brakkee and S. W. de Leeuw, "Dynamical properties of supercooled Lennard-Jones liquids: a molecular dynamics study," J. Phys. Condensed Matter 2, 4991-5003 (1990)
16. Benjamin W. van de Waal, "Can the Lennard-Jones solid be expected to be fcc?," Phys. Rev. Lett. 67, 3263-3266 (1991)
17. H. Miyagawa, Y. Hiwatari, B. Bernu, and J. P. Hansen, "Molecular dynamics study of binary soft-sphere mixtures: jump motions atoms in the glassy state," J. Chem. Phys. 88, 3879-3886 (1988)
18. Michael F. Shlesinger and John T. Bendler, "The stretched exponential, the Vogel law, and all that," Phase Transitions in Soft Condensed Matter (1989) T. Riste and D. Sherrington Plenum
19. Michael F. Shlesinger and John T. Bendler, "Generalized Vogel law for glass-forming liquids," J. Stat. Phys. 53, 531-541 (1988)
20. John T. Bendler, "Levy stable probability densities and mechanical relaxation in solid polymers," J. Stat. Phys. 36, 625 (1984)
21. Hisao Takeuchi, "A jump motion of small molecules in glassy polymers: a molecular dynamics simulation," J. Chem. Phys. 93, 2062 (1990)
22. V. Degiorgio, "Stretched-exponential relaxation of electric birefringence in polymers solutions," Phys. Rev. Lett. 64, 1043 (1990)
23. D. Kivelson, "A possible molecular structural indicator of the liquid-glass transition," J. Chem. Phys. 95, 1943 (1991) dipolar interactions
24. K. Tsumuraya and M. S. Watanabe, "Local structure and stability in a model glass," J. Chem. Phys. 92, 4983 (1990) Voronoi, icosahedral cluster
25. K. Tsumuraya, M. S. Watanabe, and T. Kondo, "Glass formation in continuous cooling processes: a molecular dynamics study of a monatomic metal system," J. Chem. Phys. 93, 5182-5186 (1990)
26. K. Tsumuraya and M. S. Watanabe, "Crystallization and glass formation processes in liquid sodium: a molecular dynamics study," J. Chem. Phys. 87, 4891 (1987)
27. K. Tsumuraya and M. S. Watanabe, "Liquid-glass transition: a molecular dynamics study of the sodium system," J. Chem. Phys. 88, 1991 (1988)
28. H. Jonsson and H. C. Andersen, "Icosahedral ordering in the Lennard-Jones liquid and glass," Phys. Rev. Lett. 60, 2295 (1988)
29. N. Rivier, "Disclination lines in glasses," Phil. Mag. A 40, 859-868 (1979)
30. V. N. Ryzhov, "Local structure and bond orientational order in a Lennard-Jones liquid," J. Phys. Condensed Matter 2, 5855-5865 (1990) agrees with Steinhardt
31. U. Balucani and R. Vallauri, "Evolution of bond-angle distribution from liquid to glassy states," Chemical Physics Letters 166, 77 (1990)
32. S. Yip and J. Ullo, "Dynamical correlations in dense metastable fluids," Phys. Rev. A 39, 5877 (1989) Lennard-Jones
33. S. Yip and J. Ullo, "Dynamical correlations in a binary metastable liquid," Chem. Phys. 149, 221-231 (1990) Lennard-Jones
34. A. P. Sokolov, "Medium range order in glasses," Phys. Rev. Lett. 69, 1540 (1992)
35. N. N. Medvedev, A. Geiger, and W. Brostow, "Distinguishing liquids from amorphous solids: percolation analysis on the Voronoi network," J. Chem. Phys. 93, 8337-8342 (1990)
G2
1. Goran Wahnstrom, "Molecular dynamics study of a supercooled two-component Lennard-Jones system," Phys. Rev. A 44, 3752 (1991)
2. Goran Wahnstrom and Laurent J. Lewis, "Molecular dynamics study of supercooled ortho-terphenyl," Phys. Rev. E
3. Goran Wahnstrom and Laurent J. Lewis, "Relaxation of a molecular glass at intermediate times," Solid State Communications 86, 295 (1993)
4. Y. Hiwatari, J. Habasaki, and I. Okada, "Origins of the two-step relaxation and the boson peak in an alkali silicate studied by molecular dynamics simulation," Phys. Rev. E 52, 2681 (1995)
5. H. Miyagawa, Y. Hiwatari, and T. Odagaki, "Dynamical singularities near the liquid-glass transition: theory and molecular dynamics study," Solid State Ionics 47, 179 (1991)
6. H. Miyagawa and Y. Hiwatari, "Molecular dynamics study of the glass transition in a binary soft-sphere model," Phys. Rev. A 44, 8278 (1991)
7. Y. Hiwatari and T. Odagaki, "Stochastic model for the glass transition of simple classical liquids," Phys. Rev. A 41, 929-937 (1990)
8. Y. Hiwatari and T. Odagaki, "Gaussian-to-non-Gaussian transition in supercooled fluids," Phys. Rev. A 43, 1103-1106 (1991)
9. H. Miyagawa and Y. Hiwatari, "Molecular dynamics study of binary soft-sphere glasses: quench-rate effects and aging effects," Phys. Rev. A 40, 6007 (1989)
10. T. Odagaki, "Anomalous and subanomalous diffusion in stochastic trapping transport," Phys. Rev. B 38, 9044 (1988)
11. C. A. Angell, "Perspectives on the glass transition," J. Phys. Chem. Solids 49, 863 (1988)
12. C. A. Angell, "Formation of glasses from liquids and biopolymers," Science 267, 1924 (1995)
13. Frank H. Stillinger, "A topographic view of supercooled liquids and glass formation," Science 267, 1935 (1995)
14. D. Richter and B. Frick, "The microscopic basis of the glass transition in polymers from neutron scattering studies," Science 267, 1939 (1995)
15. I. M. Hodge, "Physical aging in polymer glasses," Science 267, 1945 (1995)
16. A. Lindsay Greer, "Metallic glasses," Science 267, 1947 (1995)
17. D. Bitko, N. Menon, S. R. Nagel, and T. F. Rosenbaum, "High-frequency dynamics and the spin-glass transition"
18. Narayanan Menon and Sidney R. Nagel, "Evidence for a divergent susceptibility at the glass transition," Phys. Rev. Lett. 74, 1230 (1995)
19. Narayanan Menon, Sidney R. Nagel, and and David C. Venerus, "Dynamic viscosity of a simple glass forming liquid," Phys. Rev. Lett. 73, 963 (1994)
20. Sidney R. Nagel, P. K. Dixon, L. Wu, B. D. Williams, and J. P. Carini, "Scaling in the relaxation of supercooled liquids," Phys. Rev. Lett. 65, 1108 (1990)
21. Ralph V. Chamberlin, "Comment on `Scaling in the relaxation of supercooled liquids'," Phys. Rev. Lett. 66, 959 (1991)
22. Sidney R. Nagel, P. K. Dixon, L. Wu, B. D. Williams, and J. P. Carini, "Reply," Phys. Rev. Lett. 66, 960 (1990)
23. R. V. Chamberlin and D. N. Haines, "Percolation model for relaxation in random systems," Phys. Rev. Lett. 65, 2197 (1990)
24. S. Nagel, "Susceptibility studies of supercooled liquids and glasses," Phase Transitions and Relaxation in Systems with Competing Energy Scales (1993) T. Riste and D. Sherrington Plenum
25. Sidney R. Nagel, "Experimental analysis of disordered systems," 1990 Lectures in Complex Systems
26. Sidney R. Nagel, Richard M. Ernst, and Gary S. Grest, "Search for a correlation length in a simulation of the glass transition," Phys. Rev. B 43, 8070 (1991)
27. Sidney R. Nagel and Gary S. Grest, "Frequency-dependent specific heat in a simulation of the glass transition," J. Phys. Chem. 91, 4916 (1987)
28. Sidney R. Nagel and Gary S. Grest, "Glass formation in a simple monatomic liquid with icosahedral local order," Phys. Rev. A 46, R2984 (1992)
29. C. M. Rowland and K. L. Ngai, "Short time dynamics of fragile-forming liquids," J. Chem. Phys. 103, 1152 (1995)
30. Cliff Z.-W. Liu and Irwin Oppenheim, "Enhanced diffusion upon approaching the kinetic glass transition," Phys. Rev. E 53, 799 (1996)
31. J. P. Sethna, "Speculations in the glass transition," Europhysics Letters 6, 529-534 (1988)
32. Daniel Kivelson, "Fitting of viscosity: Distinguishing the temperature dependencies predicted by various models of supercooled liquids," Phys. Rev. E 53, 751 (1996)
33. Daniel Kivelson and Steven A. Kivelson, "A thermodynamic theory of supercooled liquids," Physica A 219, 27-38 (1995)
34. Steven A. Kivelson, "Frustration-limited clusters in liquids," J. Chem. Phys. 101, 2391 (1994)
35. J. C. Dyre, "Master-equation approach to the glass transition," Phys. Rev. Lett. 58, 792 (1987)
36. H-O Carmesin, "Universal properties of supercooled fluids," J. Phys. Condensed Matter 3, 6935 (1991)
37. Steven A. Brawer, "Microscopic model of anomalous low-frequency excitations in inorganic glasses: molecular dynamics study of BeF2," Phys. Rev. Lett. 46, 778 (1981)
38. Steven Brawer, "The glass transition of BeF2: a Monte Carlo study," J. Chem. Phys. 72, 4264 (1980)
39. Steven A. Brawer and Marvin J. Weber, "Molecular dynamics simulations of the structure of rare-earth-doped beryllium fluoride glasses," J. Chem. Phys. 75, 3522 (1981)
40. S. A. Brawer, "Defects and fluorine diffusion in sodium fluoroberyllate glass: a molecular dynamics study," J. Chem. Phys. 75, 3516 (1981)
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G3
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Mode coupling
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8. Hans C. Andersen and Walter Kob, "Testing mode coupling theory for a supercooled binary Lennard-Jones mixture. II. Intermediate scattering function and dynamic susceptibility," Phys. Rev. E 52, 4134 (1995)
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G4
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15. T. Tomida and T. Egami, "Molecular dynamics study of orientational order in liquids and glasses and its relation to the glass transition," Phys. Rev. B 52, 3290 (1995)
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17. U. Geppert, H. Rieger, and M. Schreckenberg, "A hierarchical model for aging," cond-mat/9703235
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19. Walter Kob, "The mode coupling theory of the glass transition," cond-mat/9702073
20. W. Kob, "Computer simulations of supercooled liquids and glass," cond-mat/9809268
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G5
1. Daniel Kivelson and Gilles Tarjus, "Phenomenological analysis of supercooled liquids"
2. Daniel Kivelson, Gilles Tarjus, Christiane Alba-Simionesco, Maria Luisa Ferrer, and Hajime Sakai, "The Viscous Slowing Down of supercooled liquids as a temperature-controlled process. Evidence and consequences," Slow Dynamics in Complex Systems
3. Daniel Kivelson and Maria Luisa Ferrer, "Constant density activation energies and the role of activated dynamics in liquids above their melting points," J. Chem. Phys. 110, 10963 (1999)
4. Daniel Kivelson, Christiane Alba-Simionesco, Maria Luisa Ferrer, and Hajime Sakai, "Extension of the Angell Fragility Concept," J. Phys. Chem B 103, 4191-4196 (1999)
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6. Daniel Kivelson and Gilles Tarjus, "Observed anomalies in supercooled liquids described by frustration-limited domain theory," Phil. Mag. B 77, 245-256 (1998)
7. Daniel Kivelson and Gilles Tarjus, "The Kauzmann paradox interpreted via the theory of frustration-limited domains," J. Chem. Phys. 109, 5481 (1998)
8. Daniel Kivelson and Gilles Tarjus, "SuperArrenhenius character of supercooled glass-forming liquids," J. Non-Cryst. Solids 235-237, 86-100 (1998)
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12. Daniel Kivelson, Gilles Tarjus, and Pascal Viot, "The viscous slowing down of supercooled liquids as a temperature-controlled superArrhenius activated process: a description in terms of frustration-limited domains," cond-mat/0002372
13. D. Kivelson and G. Tarjus, "The viscous slowing down of supercooled liquids and the glass transition: phenomenology, concepts, and models," cond-mat/0003368
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31. V. A. Stephanovich, M. D. Glinchuk, B. Hilczer, and L. Jastrabik, "On the physical mechanisms of relaxation time distribution in disordered dielectrics," cond-mat/9907250
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G6
1. J. Hammann, E. Vincent, V. Dupuis, M. Alba, M. Ocio, and J.-P.Bouchaud, "Comparative review of aging properties in spin glasses and other disordered materials," cond-mat/9911269
2. Giorgio Parisi, "Physics of glassy systems," cond-mat/9910375
3. A. Crisanti and F. Ritort, "Are Mean-Field Spin-Glass Models Relevant for the Structural Glass Transition?," cond-mat/9911351
4. Ludger Santen and Werner Krauth, "Absence of thermodynamic phase transition in a model glass former," Nature 405, 550 (2000) cond-mat/9912182 hard disks, nonlocal Monte Carlo moves
5. Xiaoyu Xia and Peter G. Wolynes, "Fragilities of Liquids Predicted from the Random First Order Transition Theory of Glasses," cond-mat/9912442
6. Walter Kob and Ryoichi Yamamoto, "Replica-exchange molecular dynamics simulation for supercooled liquids," cond-mat/0001042 replica-exchange Monte Carlo
7. G. Ruocco, F. Sette, R. Di Leonardo, G. Monaco, M. Sampoli, T. Scopigno, and G. Viliani, "Relaxation processes in harmonic glasses?," cond-mat/0001030
8. Jean-Philippe Bouchaud, "Aging in glassy systems: new experiments, simple models, and open questions," cond-mat/9910387
9. Raphael Exartier and Luca Peliti, "Measuring effective temperatures in out-of-equilibrium driven systems," cond-mat/9910412 driven glassy system
10. D. Johnston and A. Lipowski, "Cooling-rate effects in a model of ideal? glass," cond-mat/9910370 3D Ising model with 4 spin interactions
11. Claudio Donati, Sharon C. Glotzer, Silvio Franz, and Giorgio Parisi, "Theory of Non-linear Susceptibility and Correlation Length in Glasses and Liquids," cond-mat/9905433
12. Silvio Franz and Giorgio Parisi, "Phase diagram of glassy systems in an external field," Phys. Rev. Lett. 79, 2486 (1997) cond-mat/9701033
13. Matthieu Micoulaut, "Nucleation model for the description of glass formation," Modern Physics Letters 12B (14), 561-568 (1998) cond-mat/9809223
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15. W. Gotze and Th. Voigtmann, "Universal and non-universal features of glassy relaxation in propylene carbonate," cond-mat/0001188
16. Walter Kob, "Supercooled Liquids and Glasses," cond-mat/9911023
17. P. Chandra and L.B. Ioffe, "Distribution of Attraction Basins in a Family of Simple Glasses," cond-mat/9909381
18. Andrea Cavagna, "Fragile vs strong liquids: a saddles ruled scenario," cond-mat/9910244
19. James P. Sethna and Kamal K. Bhattacharya, "Multicanonical methods, molecular dynamics, and Monte Carlo methods: Comparison for Lennard-Jones glasses," Phys. Rev. E 57, 2553 (1998)
20. Giorgio Parisi, "The Physics of the Glass Transition," cond-mat/0001335
21. V. G. Rostiashvili and T. A. Vilgis, "How to break the replica symmetry in structural glasses," Europhysics Letters cond-mat/9911280 spinodal
22. N. N. Medvedev, H. R. Schober, V. A. Luchnikov, and Yu. I. Naberukhin, "Voronoi-Delaunay analysis of normal modes in a simple model glass," cond-mat/9906248
23. L. Angelani, G. Parisi, G. Ruocco, and R. Di Leonardo, "Off-Equilibrium Effective Temperature in Monatomic Lennard-Jones Glass," cond-mat/0001311
24. L. Angelani, G. Ruocco, M. Montagna, and G. Vilian, "Frustration and sound attenuation in structural glasses," cond-mat/0001363
25. Giorgio Parisi, "On the mean field approach to glassy systems," cond-mat/9701034
26. Theo M. Nieuwenhuizen, "Solvable model for the standard folklore of the glassy state," cond-mat/9911052
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29. Eran Rabani, J. Daniel Gezelter, and B. J. Berne, "Direct observation of stretched-exponential relaxation in Lennard-Jones glasses using the cage correlation function," Phys. Rev. Lett. 82, 3649-3652 (1999)
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35. Normand Mousseau, "Cooperative motion in Lennard-Jones binary mixtures below the glass transition," cond-mat/0004356
36. Srihanth Sastry, "Evaluation of configurational entropy of a model liquid from computer simulations," cond-mat/0005225
37. Marc Mezard, "First Steps in Glass Theory," cond-mat/0005173
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G7
1. Giorgio Parisi, Barbara Coluzzi, and Paolo Verrocchioz, "The thermodynamical liquid-glass transition in a Lennard-Jones binary mixture," Phys. Rev. Lett. 84, 306 (2000) cond-mat/9906172
2. G. Parisi, B. Coluzzi, and P. Verrocchio, "Lennard-Jones binary mixture: a thermodynamical approach to glass transition," J. Chem. Phys. 112, 2933-2944 (2000)
3. Marc Mezard, Giorgio Parisi, and Barbara Coluzzi, "Thermodynamics of binary mixture glasses," J. Chem. Phys. 111, 9039 (1999)
4. Giorgio Parisi, "A divergent correlation length in off-equilibrium glasses," cond-mat/9801034
5. Andreas Jaster, "An improved Metropolis algorithm for hard core systems," Physica A 264, 134 (1999) cond-mat/9711256
6. Andreas Jaster, "Orientational order of the two-dimensional hard disk system," Europhysics Letters 42, 227-281 (1998) cond-mat/9807289
7. Andreas Jaster, "Computer simulations of the two-dimensional melting transition using hard disks," Phys. Rev. E 59, 2594 (1999) cond-mat/9810274
8. Andreas Jaster, "Short-time dynamics of the positional order of the two-dimensional hard disk system," Phys. Lett. A 258, 59 (1999) cond-mat/9807295
9. Ryoichi Yamamoto and Akira Onuki, "Dynamics of Highly Supercooled Liquids:Heterogeneity, Rheology, and Diffusion," cond-mat/9806207
10. Ryoichi Yamamoto and Akira Onuki, "Kinetic Heterogeneities in a Highly Supercooled Liquid," J. Phys. Soc. Japan 66, 2545 (1997) cond-mat/9807218
11. G. Ruocco, G. Viliani, and F. Demichelis, "Potential energy topology and relaxation processes in a model glass," cond-mat/9804114
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15. Marc Mezard and Giorgio Parisi, "Thermodynamics of glasses: a first principles computation," cond-mat/9807420
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44. A. Diaz-Sanchez, "Stretched exponential relaxation in the Coulomb glass," cond-mat/0006396
45. A. Diaz-Sanchez, A. Mobius, M. Ortuno, A. Neklioudov, and M. Schreiber, "Non-ergodic effects in the Coulomb glass: specific heat," cond-mat/0006229
46. L. L. Goncalves, M. Lopez de Haro, J. Taguena-Martinez, and R. B. Stinchcombe, "Nagel Scaling, Relaxation, and Universality in the Kinetic Ising Model on an Alternating Isotopic Chain," Phys. Rev. Lett. 84, 1507-1510 (2000)
47. Clare C. Yu and Herve M. Carruzzo, "Thermodynamic generalized compressibility in a glass forming liquid," cond-mat/0004320
48. Silvio Franz and Giorgio Parisi, "On nonlinear susceptibility in supercooled liquids," cond-mat/0005095
49. H. R. Schober, K. Caprion, and J. Matsui, "Universal behavior of relaxational heterogeneity in glasses and liquids," cond-mat/0005086
50. Michael R. Swift, Hemant Bokil, Rui D. M. Travasso, and Alan J. Bray, "Novel glassy behavior in a ferromagnetic p-spin model," cond-mat/0003384
51. Walter Kob, Ryoichi Yamamoto, Claudio Brangian, and Torsten Stuhn, "Equilibrating Glassy Systems with Parallel Tempering," cond-mat/0003282
52. Giorgio Parisi and Mark Mezard, "Statistical Physics of Structural Glasses," cond-mat/0002128
53. Chandan Dasgupta and Oriol T. Valls, "Free Energy Landscape Of Simple Liquids Near The Glass Transition," cond-mat/0002081
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B3
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B4
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Kinetic Theory
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10. Charles D. Boley, "Projection-operator approach to a renormalized kinetic theory," Phys. Rev. A 11, 328 (1975)
11. C. D. Boley, "Shorter Route to the Mazenko Memory Function," Phys. Rev. A 5, 986 (1972)
12. Michael Lindenfeld, "Identity for memory operators in classical kinetic theory," Phys. Rev. A 15, 1801 (1977)
13. J. P. Hansen, E. L. Pollock, and I. R. McDonald, "Velocity Autocorrelation Function and Dynamical Structure Factor of the Classical One-Component Plasma," Phys. Rev. Lett. 32, 277 (1974)
14. J. P. Hansen, I. R. McDonald, and E.L. Pollock, "Statistical mechanics of dense ionized matter. III. Dynamical properties of the classical one-component plasma," Phys. Rev. A 11, 1025 (1975)
15. Jean Pierre Hansen and Ian R. McDonald, "Statistical mechanics of dense ionized matter IV. Density and charge fluctuations in a simple molten salt," Phys. Rev. A 11, 2111 (1975)
16. J. P. Hansen and P. Vieillefosse, "Statistical mechanics of dense ionized water. V. Hydrodynamics limit and transport coefficients of the classical one-component plasma," Phys. Rev. A 12, 1106 (1975)
17. B. Bernu and P. Vieillefosse, "Transport coefficients of the classical one-component plasma," Phys. Rev. A 18, 2345 (1978)
18. B. Bernu and J. P. Hansen, "Thermal Conductivity of a strongly coupled hydrogen plasma," Phys. Rev. Lett. 48, 1375 (1982)
19. J. P. Hansen, I. R. McDonald, and P. Vieillefosse, "Time-Dependent Density Fluctuations in a Strongly Coupled Ionic Mixture," Phys. Rev. Lett. 39, 271 (1977)
20. Jean Wallenborn and Marc Baus, "Kinetic theory of the shear viscosity of a strongly coupled classical one-component plasma," Phys. Rev. A 18, 1737 (1978)
21. J. P. Hansen, D. Levesque, and J.J. Weis, "Self-Diffusion in the Two-dimensional, Classical Electron Gas," Phys. Rev. Lett. 43, 979 (1979)
22. Marc Baus, "Theoretical evidence for the existence of the self-diffusion constant of two-dimensional electron liquids," J. Phys. C 13, L41 (1980)
23. M. Baus and J. Bosse, "Comments on self-diffusion in two-dimensional electron liquids," Phys. Rev. A 22, 2284 (1980)
24. R. L. Varley and J. E. Tigner, "Velocity Autocorrelation Function in a strongly coupled, Magnetized, Pure Electron Plasma," Phys. Rev. Lett. 43, 1113 (1979)
25. T. Gaskell and P. E. Mason, "Velocity correlation and collective modes in a rigid sphere fluid," Molecular Physics 41, 529 (1980)
26. J. P. Hansen, L. Sjogren, and E. L. Pollock, "Self-diffusion, conductivity, and long-wavelength plasma oscillations in strongly coupled two-component plasmas," Phys. Rev. A 24, 1544 (1981)
27. L. Sjogren, "Kinetic theory of current fluctuations in simple classical liquids," Phys. Rev. A 22, 2866 (1980)
28. L. Sjogren, "Numerical results on the density fluctuations in liquid rubidium," Phys. Rev. A 22, 2883 (1980)
29. L. Sjogren and A. Sjolander, "Kinetic Theory of self motion in monatomic liquids," (1979)
30. L. Sjogren, "Kinetic Theory of classical liquids V: Formal Theory," (1977)
31. L. Sjogren, "Density fluctuations in liquid aluminium," J. Phys. C 11, 1493 (1978)
32. L. Sjogren and A. Sjolander, "Kinetic theory of self-motion in monatomic liquids," J. Phys. C 12, 4369 (1979)
33. L. Sjogren, "Numerical results on the velocity correlation function in liquid argon and rubidium," J. Phys. C 12, 705 (1980)
34. L. Sjogren and A. Sjolander, "Kinetic Theory of Classical Liquids. I. Basic Theory," Annals of Physics 122, 122 (1978)
35. Marc Baus, "Collective Modes and Dynamic Structure Factor of a Two-Dimensional Electron Fluid," J. Stat. Phys. 19, 163 (1978)
36. Marc Baus, "Microscopic theory of the long-wavelength modes of two-component plasmas and ionic liquids," Physica A 88, 336 (1977)
37. B. Bernu, "Single-Particle Motion in the Strongly Coupled One-Component Plasma," J. Stat. Phys. 21, 447 (1979)
38. Marc Baus, Jean-Pierre Hansen, and Lennart Sjogren, "Electrical conductivity of a fully ionized, weakly degenerate hydrogen plasma"
39. C. D. Boley, L. Letamendia, P. Joubert, J. P. Chabrat, J. Rouch, C. Vaucamps, Sidney Yip, and S. H. Chen, "Light-scattering studies of moderately dense gases. II. Nonhydrodynamic regime," Phys. Rev. A 25, 481 (1982)
Research paper 1
1. T. V. Ramakrishnan, "Density-Wave Theory of First-Order Freezing in Two Dimensions," Phys. Rev. Lett. 48, 541 (1982)
2. T. V. Ramakrishnan and M. Yussouff, "First-principles order-parameter theory of freezing," Phys. Rev. B 19, 2775 (1979)
3. R. M. J. Cotterill and J. U. Madsen, "Localized fluidity modes and the topology of the constant-potential-energy hypersurfaces of Lennard-Jones matter," Phys. Rev. B 33, 262 (1986)
4. Jean-Pierre Hansen and Loup Verlet, "Phase Transitions of the Lennard-Jones System," Phys. Rev. 184, 151 (1969)
5. M. J. Mandell, J. P. McTague, and A. Rahman, "Crystal nucleation in a three-dimensional Lennard-Jones system: A molecular dynamics study," J. Chem. Phys. 64, 3699 (1976)
6. M. J. Mandell, J. P. McTague, and A. Rahman, "Crystal nucleation in a three-dimensional Lennard-Jones system. II. Nucleation kinetics for 256 and 500 particles," J. Chem. Phys. 66, 3070 (1977)
7. M. J. Mandell, A. Rahman, and J.P. McTague, "Molecular dynamics study of an amorphous Lennard-Jones system at low temperature," J. Chem. Phys. 64, 1564, (1976)
8. Aneesur Rahman and C. S. Hsu, "Crystal nucleation and growth in liquid rubidium," J. Chem. Phys. 70, 5234 (1979)
9. Aneesur Rahman and C. S. Hsu, "Interaction potentials and their effect on crystal nucleation and symmetry," J. Chem. Phys. 71, 4974 (1979)
10. Leslie V. Woodcock, J. Neil Cape, and John L. Finney, "An analysis of crystallization by homogeneous nucleation in a 4000-atom soft-sphere model," J. Chem. Phys. 75, 2366 (1981)
11. Raymond D. Mountain, "Molecular-dynamics study of liquid rubidium," Phys. Rev. A 26, 2859 (1982)
12. Raymond D. Mountain and Alan C. Brown, "Molecular dynamics investigation of homogeneous nucleation for inverse power potential liquids and for a modified Lennard-Jones liquid," J. Chem. Phys. 80, 2730 (1984)
13. Raymond D. Mountain and Alan C. Brown, "Velocity correlations in supercooled and nucleated liquid rubidium," J. Chem. Phys. 80, 1263 (1984)
14. Raymond D. Mountain and P. K. Basu, "Molecular dynamics study of homogeneous nucleation for liquid rubidium," J. Chem. Phys. 78, 7318 (1983)
15. A. D. J. Haymet, "Orientational environments in liquids and solids," Chemical Physics Letters 107, 77 (1984)
16. Hans C. Andersen and J. Dana Honeycutt, "The effect of periodic boundary conditions on homogeneous nucleation observed in computer simulations," Chemical Physics Letters 108, 535 (1984)
17. J. Dana Honeycutt and Hans C. Anderson, "Small System Size Artifacts in the Molecular Dynamics Simulation of Homogeneous Crystal Nucleation in Supercooled Atomic Liquids," J. Phys. Chem. 90, 1585 (1986)
18. F. W. De Wette, R. E. Allen, and D. S. Hughes, "Crystallization with a Lennard-Jones potential: a computer experiment," Phys. Lett. A 29, 548 (1969)
19. A. D. J. Haymet, C. Marshall, and B. B. Laird, "Freezing of the Lennard-Jones liquid," Chemical Physics Letters 122, 320 (1985)
20. W. Klein and F. Leyvraz, "Crystalline Nucleation in Deeply Quenched Liquids," Phys. Rev. Lett. 57, 2845 (1986)
21. David R. Nelson, Paul J. Steinhardt, and Marco Ronchetti, "Icosahedral Bond Orientational Order in Supercooled Liquids," Phys. Rev. Lett. 47, 1297 (1981)
22. David R. Nelson, Paul J. Steinhardt, and Marco Ronchetti, "Bond-orientational order in liquids and glasses," Phys. Rev. B 28, 784 (1983)
23. David R. Nelson, Michael Rubinstein, and Frans Spaepen, "Order in two-dimensional binary random arrays," Phil. Mag. A 46, 105 (1982)
24. Robert H. Swendsen, Michael Widom, and Katherine J. Strandburg, "Quasicrystal Equilibrium State," Phys. Rev. Lett. 58, 706 (1987)
25. J. F. McCarthy, "Continuum Percolation of Disks by a Cluster Growth Method on Random Lattices"
26. Edward T. Gawlinski and H. Eugene Stanley, "Continuum percolation in two dimensions: Monte Carlo tests of scaling and universality for non-interacting discs," J. Phys. A 14, 291 (1981)
27. C. A. Angell, J. H. R. Clarke, and L. V. Woodcock, "Interaction potentials and glass formation: a survey of computer experiments"
28. Gary S. Grest and Morrel H. Cohen, "Liquids, glasses, and the glass transition: a free-volume approach"
29. Murty S. S. Challa and J. H. Hetherington, "Gaussian Ensemble as an Interpolating Ensemble," Phys. Rev. Lett. 60, 77 (1998)
30. M. E. Colvin, A. J. C. Ladd, and B. J. Alder, "Maximally Discretized Molecular Dynamic," Phys. Rev. Lett. 61, 381 (1998)
31. L. Sjorgren, "Diffusion of impurities in a dense fluid near the glass transition," Phys. Rev. A 33, 1254 (1986)
32. Hiroshi Iyetomi and Setsuo Ichimaru, "Possibility of an amorphous glassy state in a supercooled plasma," Phys. Rev. A 27, 1734 (1983)
33. Douglas Henderson, William G. Hoover, Marvin Ross, Keith W. Johnson, John A. Barker, and Bryan C. Brown, "Soft-Sphere Equation of State," J. Chem. Phys. 52, 4931 (1970)
34. William G. Hoover, Keith W. Johnson, and Steven G. Gray, "Thermodynamic Properties of the Fluid and Solid Phases for Inverse Power Potentials," J. Chem. Phys. 55, 1128 (1971)
35. Marvin Bishop, Marie Derosa, and Joanne Lalli, "Molecular Dynamics Simulations of One-Dimensional Lennard-Jones Systems," J. Stat. Phys. 25, 229 (1981)
36. Soren Toxvaerd, "A New Agorithm for Molecular Dynamics Calculations," J. Chem. Phys. 47, 444 (1982)
37. F. H. Stillinger and A. Rahman, "Molecular Dynamics Study of Liquid Water," Gear algorithm
38. D. Beeman, "Some Multistep Methods for Use in Molecular Dynamics Calculations," J. Chem. Phys. 20, 130 (1976)
39. W. B. Streett, D. J. Tildesley, and G. Saville, "Multiple time-step methods in molecular dynamics," Mol. Phys. 35, 639 (1978)
40. Seixo Watarai and Akira Nakinshi, "Finite-Size Scaling in the Simple-Cubic Ising Model with Dipolar Interactions," J. Phys. Soc. Japan 57, 1508 (1988)
41. K. Binder and R. Kretschmer, "Ordering and Phase Transitions in Ising Systems with Competing Short Range and Dipolar Interactions," Z. Phys. B 34, 375 (1979)
42. George O. Zimmerman and A. K. Ibrahim, "Planar classical dipolar system on a honeycomb lattice," Phys. Rev. B 37, 2059 (1988)
Computer Simulation: General
1. Kenneth G. Wilson, "Theoretical science in the coming decades"
2. Anders Wallqvist, Bruce J. Berne, and Chani Pangali, "Exploiting physical parallelism using supercomputers," IEEE Computer (5), (1987)
3. Alan H. Karp, "Programming for parallelism," IEEE Computer (5), (1987)
4. Jorge E. Hirsch and Douglas J. Scalapino, "Condensed matter physics," Phys. Today (5), (1983)
5. Donald R. Hamann, "Doing physics with computers," Phys. Today (5), 25 (1983)
6. Michael Creutz, "High energy physics," Phys. Today (5), 35 (1983)
7. Per Bak, "Doing physics with microcomputers," Phys. Today (12), 25 (1983)
8. Richard P. Feynman, "Simulating physics with computers," Int. J. Theor. Phys. 21, 467 (1982)
9. Fred Gruenberger, "Computer Recreations," Sci. Amer. (19xx)
10. R. von Balyz, W. Lehr, and M. Schmutz, "Use of microcomputers in theoretical physics courses: three examples," Eur. J. Phys. 9, 5 (1988)
11. Peter J. Denning, "The Science of Computing," Am. Sci. 77, 216 (1989)
12. Frank R. Brown and Norman H. Christ, "Parallel supercomputers for lattice gauge theory," Science 239, 1393 (1988)
13. W. G. Rees and C. Viney, "On cooling tea and coffee," Am. J. Phys. 56, 434 (1988)
14. David J. D. Earn, "Symplectic integration without roundoff error," Ergodic Concepts in Stellar Dynamics (1994) V. G. Gurzadyan and D. Pfenniger Springer-Verlag astronomy, lattice maps
15. Myron Lecar and Fred A. Franklin, "On the original distribution of the asteriods. 1," Icarus 20, 422-436 (1973)
16. Renu Malhotra, "Nonlinear resonances in the solar system," Physica D 77, 289-304 (1994) Kirkwood gaps
17. M. J. Duncan and T. Quinn, "The long-time dynamical evolution of the solar system," Ann. Rev. Astron. Astrophys. 31, 265-95 (1993)
18. Arthur W. Luerhrmann, "Orbits in the solar wind--a mini-research problem," Am. J. Phys. 42, 361 (1974)
19. LLoyd Motz, "The conservation principles and Kepler's laws of planetary motion," Am. J. Phys. 43, 575 (1975)
20. Andrea A. diSessa, "Orbit: a mini-environment for exploring orbital mechanics," Computers in Education (1975) North-Holland editors: O. Lecarme and R. Lewis
21. Andrea A. diSessa, Harold Abelson, and Lee Rudolph, "Velocity space and the geometry of planetary orbits," (1974)
22. Ian R. Gatland, "Numerical integration of Newton's equations including velocity-dependent forces," Am. J. Phys. 62, 259 (1994)
23. Alan Cromer, "Stable solutions using the Euler approximation," Am. J. Phys. 49, 455 (1981)
24. James H. Williams and Glenn Joyce, "Equilibrium properties of a one-dimensional kinetic system," J. Chem. Phys. 59, 741 (1973)
25. John R. Merrill and Richard A. Morrow, "An introductory scattering by simulations," Am. J. Phys. 38, 1104 (1970)
26. Margaret Greenwood, "Air resistance acting on a sphere," Phys. Teacher xx (3), 153 (1986)
27. Ivars Peterson, "Space-time odyssey," Science News 137, 232 (1990) optics
28. Alfred Bork and Andres Zellweger, "Least action via computer," Am. J. Phys. 37, 386 (1969)
29. Alan Cromer, "The x3 oscillator," Phys. Teacher 30, 249 (1992)
30. Tomoyuki Yamamoto and Kunihiko Kaneko, "Helium atom as a classical three-body problem," Phys. Rev. Lett. 70, 1928 (1993)
31. Mark Peastrel, Rosemary Lynch, and Angelo Armenti, "Terminal velocity of a shuttlecock in vertical fall," Am. J. Phys. 48, 511 (1980)
32. S. Eubank, W. Miner, T. Tajima, and J. Wiley, "Interaction computer simulation and analysis of Newtonian dynmics," Am. J. Phys. 57, 457 (1989)
33. John B. McLaughlin, "Period-doubling bifurcations and chaotic motion for a parametrically forced pendulum," J. Stat. Phys. 24, 375 (1981)
34. E. Fermi, J. Pasta, and S. Ulam, "Studies of nonlinear problems. 1," Lect. Appl. Math. 15, 143 (1974)
35. B. I. Henry and J. Grindlay, "Numerical ensemble of ergodic properties of the quartic Fermi-Pasta-Ulam chain," Phys. Rev. A 38, 2594 (1988)
36. Raymond D. Mountain and D. Thirumalai, "Probes of equipartition in nonlinear Hamiltonian systems," J. Stat. Phys. 57, 789 (1989)
37. P. Bocchieri and F. Valz-Gris, "Ergodic properties of an anharmonic two-dimensional crystal," Phys. Rev. A 9, 1252 (19xx)
38. J. L. Tuck and M. T. Menzel, "The superperiod of the nonlinear weighted string," Adv. Math. 9, 399-407 (1972)
39. Giancarlo Benettin, "A completely classical mechanism for the freeezing of the high frequency degrees of freedom"
40. Giancarlo Benettin, Guido Lo Vecchio, and Alexander Tenenbaum, "Stochastic transition in two-dimensional Lennard-Jones systems," Phys. Rev. A 22, 1709 (1980)
41. George Schmidt and Qi Chen, "Apparent transition to ergodicity in the autonomous Fermi system," Physica D 71, 18-22 (1994)
42. Giancarlo Benettin and Alexander Tenenbaum, "Ordered and stochastic transition in a two-dimensional Lennard-Jones system," Phys. Rev. A 28, 3020 (1983)
43. P. Bocchieri, A, Scotti, B. Bearzi, and A. Loinger, "Anharmonic chain with Lennard-Jones interaction," Phys. Rev. A 2, 2013 (1970)
44. L. Galgani and G. Lo Vecchio, "Stochastic thresholds for systems of coupled oscillators," Nuovo Cimento B 52, 1 (1979)
45. J. De Luca, A. J. Lichtenberg, and S. Ruffo, "Universal evolution to equipartion in oscillator chains," Phys. Rev. E 54, 2329 (1996) FPU
46. E. G. D. Cohen, "The Fermi-Pasta-Ulam problem revisited," Phys. Rev. E 55, 6566 (1997)
47. Gregory B. Sorkin, "Ultrametricity in Q2R cellular automata," (1986)
48. Jay Martin Anderson, "Computer simulation in chemical kinetics," J. Chem. Educ. 53, 561 (1975)
49. S. K. Dey, "Applications of microcomputers in computational fluid dynamics"
50. Michael Vander Vorst, "Calculation of fluid flow over arbitrary shapes"
51. P. Gray and S. K. Scott, "Sustained oscillations and other exotic patterns of behavior in isothermal reactions," J. Phys. Chem. 89, 22 (1985)
52. John E. Pearson, "Complex patterns in a simple system," Science 261, 189 (1993)
53. Bo Peng, Valery Petrov, and Kenneth Showalter, "Controlling chemical chaos," J. Phys. Chem. 95, 4957-4959 (1991)
54. Valery Petrov, Kenneth Showalter, and Michael J. Crowley, "Tracking unstable periodic orbits in the Belousov-Zhabotinsky reaction," Phys. Rev. Lett. 72, 2955 (1994)
55. R. J. Field and F. W. Schneider, "Oscillating chemical reactions and nonlinear dynamics," J. Chem. Educ. 66, 195 (1989)
56. Jerzy Maselko and Irving R. Epstein, "Dynamical behavior of coupled chemical oscillators," J. Phys. Chem. 88, 305 (1984)
57. Peter Ruoff and Richard M. Noyes, "An amplified oregonator model simulating alternative excitabilities, transitions in types of oscillations, and temporary instability in a closed system," J. Chem. Phys. 84, 1413 (1986)
58. Richard J. Field and Horst Dieter Forsterling, "On the Oxybromine chemistry rate constants," J. Phys. Chem. 90, 5400-5407 (1986)
59. Richard M. Noyes and Kedma Bar-Eli, "Relevance of a two-variable oregonator to stable and unstable steady states and limit cycles," J. Chem. Phys. 86, 1927 (1987)
60. Richard M. Noyes, "Comparison of the Field-Koros-Noyes and Field-Forsterling parameterizations," J. Phys. Chem. 90, 5407 (1986)
61. Earle S. Scott, Rodney Schreiner, Lee R. Sharpe, Bassam Z. Shakhashiri, and Glen E. Dirreen, "Oscillating chemical reactions"
62. Richard M. Noyes and Richard J. Field, "Oscilations in chemical systems. IV. limit cycle behavior," J. Chem. Phys. 60, 1977 (1974)
63. Kenichi Yoshikaa, "Amusement with a salt water oscillator," J. Chem. Educ. 66, 205 (1989)
64. R. I. Gibbs, Charles W. Beason, and James D. Beason, "Solutions to boundary value problems of the potential type by random walk method," Am. J. Phys. 43, 782 (1975)
65. Alexander A. Berezin, "Simple electrostatic model of the structural phase transition," Am. J. Phys. 54, 403 (1986)
66. F. J. Mulligan, "An illustration of the method of finite differences in the solution of Laplace's equation," Eur. J. Phys. 13, 57-63 (1992)
67. Bruce I. Cohen and John Kileen, "Computations in plasma physics," Phys. Today 54 (5), (1983)
68. Donald P. Greenberg, "Light reflection models for computer graphics," Science 244, 166 (1989)
69. A. Kinsella, "Numerical methods for error evaluation," Am. J. Phys. 54, 464 (1986)
70. John J. Hopfield and David W. Tank, "Computing with neural circuits: a model," Science 233, 625 (1986)
71. J. J. Hopfield and D. W. Tank, "Neural computation of decisions in optimization problems," Bio. Cybern. 52, 1421-152 (1985)
72. Geoffrey Fox, "Neural networks a dynamic complex systems"
73. A. A. Harms and O. E. Hileman, "Chemical clocks, feedback, and nonlinear behavior," Am. J. Phys. 53, 578 (2985)
74. Eugenie V. Mielczarek, Jack S. Turner, Darryl Leiter, and Linda Davis, "Chemical clocks: experimental and theoretical models of nonlinear behavior," Am. J. Phys. 51, 32 (1983)
75. N. A. Dodd, "Computer simulation of diffraction patterns," Phys. Educ. 18, 294 (1983)
Computer Simulation book: Monte Carlo
1. D. P. Landau and R. Alben, "Monte Carlo calculations as in teaching statistical mechanics," Am. J. Phys. 41, 394 (1973)
2. Shang-keng Ma, "Calculation of entropy from data of motion," J. Stat. Phys. 26, 221 (1981)
3. James G. Berryman, "Random close packing of hard spheres and sisks," Phys. Rev. A 27, 1053 (1983)
4. W. W. Wood, "Monte Carlo calculation for hard disks in the isothermal-isobaric ensemble," J. Chem. Phys. 48, 415 (1968)
5. J. Kertesz, J. Cserti, and J. Szep, "Monte Carlo simulation programs for microcomputers," Eur. J. Phys. 6, 232 (1985)
6. H. W. Graben and John R. Ray, "Direct calculation of fluctuation formulae in the microcanonical ensemble," Mol. Phys. 43, 1293 (1981)
7. D. J. Adams, "Grand canonical ensemble Monte Carlo for a Lennard-Jones fluid," Mol. Phys. 29, 307-311 (1975)
8. W. Schreiner and K. W. Kratky, "Finiteness effects in computer simulation of fluids with spherical boundary conditions," Mol. Phys. 50, 435 (1983)
9. Mark Novotony, "The Monte Carlo method"
10. John R. Ray, "Microcanonical ensemble Monte Carlo method," Phys. Rev. A 44, 4061 (1991)
11. Eduardo Sanchez-Velasco, "Microcanonical simulation of first order phase transitions," Phys. Lett. A 147, 175 (1990)
12. H. W. Graben and John R. Ray, "Small systems have non-maxwellian momentum distributions in the microcanonical ensemble," Mol. Phys. 43, 1293 (1981)
13. Michael Creutz, "Microcanonical Monte Carlo simulation," Phys. Rev. Lett. 50, 1411 (1983)
14. Gyan Bhanot, "Lattices, demons, and the microcanonical ensemble," (1983)
15. Jooyoung Lee and J. M. Kosterlitz, "New numerical method to study phase transitions," Phys. Rev. Lett. 65, 137 (1990)
16. Kejian Ding and John P. Valleau, "Umbrella sampling realization of Widom chemical potentiial estimation," J. Chem. Phys. 98, 3306 (1993)
17. Athanassios Z. Panagiotopoulos, "Direct determination of fluid phase equilibria by simulation in the Gibbs ensemble: a review," Mol. Sim. 9, 1-23 (1992)
18. Athanassios Z. Panagiotopoulos, "Direct determination of phase coexistence of fluids by Monte Carlo simulation in a new ensemble," Mol. Phys. 61, 813-826 (1987)
19. D. J. Tildesley, A. Z. Panagiotopoulos, N. Quirke, and M. Stapleton, "Phase equilibria by simulation in the Gibbs emsemble Alternative derivation, generalization and application to mixture and membrane equilibria," Mol. Phys. 63, 527-545 (1988)
20. Mario Llano-Restrepo and Walter G. Chapman, "Bridge function and cavity correlation function for the Lennard-Jones fluid from simulation," J. Chem. Phys. 97, 2046 (1992)
21. Jooyoung Lee, "New Monte Carlo algorithm: entropic algorithm," Phys. Rev. Lett. 71, 211 (1993)
22. D. P. Landau, Robert H. Swendsen, and Alan M. Ferrenberg, "Statistical errors in histogram reweighting," Phys. Rev. E 51, 5092 (1995)
23. Peter Bolhuis and Daan Frenkel, "Prediction of an expanded to condensed transition in colloidal crystals," Phys. Rev. Lett. 72, 2211 (1994) square well potential
24. Jae-Kwon Kim, "Application of finite size scaling to Monte Carlo simulations," Phys. Rev. Lett. 70, 1735 (1993)
25. B. Derrida, A. J. Bray, and C. Godreche, "Nontrival exponents in the zero temperature dynamics of the 1D Ising and Potts models," J. Phys. A 27, L357-L361 (1994)
26. D. P. Landau, Alan M. Ferrenberg, and P. Perczak, "Monte Carlo studies of magnetic critical phenomena using histogram techniques," J. Appl. Phys. 69, 6153 (1991)
27. K. Binder, D. P. Landau, and Alan M. Ferrenberg, "Statistical and systematic errors in Monte Carlo sampling," J. Stat. Phys. 63, 867 (1991)
28. S. Kirkpatrick, C. D. Gelatt, and M. P. Vecchi, "Optimization by simulated annealing," Science 220, 671 (1983)
29. Jooyoung Lee and M. Y. Choi, "Optimization by multicanonical annealing and the travelling salesman proble"
30. Stephen Wolfram, "Computer software in science and mathematics," Sci. Amer.
31. Kenneth G. Wilson, "Problems in physics with many scales of length," Sci. Amer.
32. Kenneth G. Wilson, "The renormalization group and critical phenomena," Rev. Mod. Phys. 55, 583 (1983)
33. M. J. Sablik, J. D. Winningham, and V. A. Blevins, "Finite difference simulation of two diverging electrostatic analyzers," Rev. Sci. Instrum. 56, 1727 (1985)
34. J. D. Gunton, "Large scale computer studies in materials science"
Computer Simulation: Molecular Dynamics
1. Loup Verlet, "Computer "Experiments" on Classical Fluids. I. Thermodynamical Properties of Lennard-Jones Molecule," Physics Review 159, 98 (1967)
2. Aneesur Rahman, "Liquid Structure and Self-Diffusion," J. Chem. Phys. 45, 2585 (1966)
3. H. J. C. Berendsen and W. F. van Gunsteren, "Molecular dynamics simulations: Techniques and approaches," Molecular Liquids 475, (1984)
4. William P. Reinhardt and Masakatsu Watanabe, "Direct Dynamical Calculation of Entropy and Free energy by Adiabatic Switching," Phys. Rev. Lett. 65, 3301 (1990)
5. S. Ranganathan, G. S. Dubey, and K. N. Pathak, "Molecular-dynamics study of two-dimensional Lennard-Jones Fluids," Phys. Rev. A 45, 5793 (1992)
6. R. Vogelsang, G. Hoheisel, and M. Luckas, "Shear viscosity and thermal conductivity of the Lennard-Jones liquid computed using molecular dynamics and predicted by a memory function model for a large number of states," Molecular Physics 64, 1203 (1988)
7. Tze-jeng Hsu and Chung-Yuan Mou, "Molecular dynamics study of liquid-solid transition of dense lennard-Jones liquid," Molecular Physics 75, 1329 (1992)
8. D. Fincham and D. M. Heyes, "Recent advances in Molecular-Dynamics computer simulation"
9. Don E. Harrison, "Application of molecular dynamics simulations to the study of ion-bombarded metal surfaces," Critical Reviews in solid State and Materials Sciences 14, 81 (1988)
10. J. P. Hansen, D. Levesque, and J. J. Weis, "Self-diffusion in the two-dimensional, classical electron gas," Phys. Rev. Lett. 43, 979 (1979) no Ewald summation
11. William G. Hoover and G. D. Venneri, "Simple exact test for well-known molecular dynamics algorithms," J. Comput. Phys. 73, 468 (1987)
12. Hideo Kaburaki and Masahiko Machida, "Thermal conductivity in one-dimensional lattices of Fermi-Pasta-Ulam type," Phys. Lett. A 181, 85-90 (1985) FPU
13. Daniel N. Payton, Marvin Rich, and William M. Visscher, "Lattice thermal conductivity in disordered harmonic and anharmonic crystal models," Phys. Rev. 160, 160 (1967)
14. W. M. Saslow, M. E. Lumpkin, and W. M. Visscher, "One-dimensional Kapitza conductance: Comparison of the phonon mismatch theory with computer experiments," Phys. Rev. B 17, 4293 (1978)
15. Jerome J. Erpenbeck and William W. Wood, "Molecular dynamics techniques for hard core systems"
16. Anne Simon Moffat, "Molecular dynamics and the modelers' art," Mosaic 22, 3 (1991)
17. J. H. Weiner and J. Gao, "Simulated polymer melt stress relaxation. I. Plateau behavior," J. Chem. Phys. 103, 1614 (1995)
18. J. H. Weiner and J. Gao, "Simulated polymer melt stress relaxation. II. Search for entanglements," J. Chem. Phys. 103, 1621 (1995)
19. M. H. Shapiro and T. A. Tombrello, "Simulation of cluster impacts on metallic surfaces," Phys. Rev. Lett. 65, 92 (1990)
20. R. M. Sperandeo-Mineo and M. L. Aiello-Nicosia, "Computer simulations of a two-dimensional ideal gas: a simple molecular dynamics method for teaching purposes," Eur. J. Phys. 6, 148-153 (1985)
21. Shuichi Nose and M. L. Klein, "Constant pressure molecular dynamics for molecular systems," Mol. Phys. 50, 1055-1076 (1983)
22. Shuichi Nose, "Dynamical behavior of a thermostated isotropic harmonic oscillator," Phys. Rev. E 47, 164 (1993)
23. S. Toxvaerd, "Molecular dynamics at constant temperature and pressure," Phys. Rev. E 47, 343 (1993)
24. Denis J. Evans and G. P. Morriss, "The isothermal/isobaric molecular dynamics ensemble," Phys. Lett. A 98, 433 (1983)
25. Luis F. Rull, Juan J. Morales, and francisco Cuadros, "Isothermal molecular dynamics calculations," Phys. Rev. B 32, 6050 (1985)
26. M. N. Ovchinnikov and V. A. Skrebnev, "Stochastic behavior in systems with a Lennard-Jones potential and only a few particles," JETP Lett. 54, 405 (1991) chaos
27. William G. Hoover, "Reversible mechanics and time's arrow," Phys. Rev. A 37, 252 (1988)
28. H. A. Posch and W. G. Hoover, "Lyapunov instability of dense Lennard-Jones fluids," Phys. Rev. A 38, 473 (1988)
Computer Simulation: Random
1. Knuth, "hapter 3," chapter: Random numbers
2. Charles Whitney, "Linear congruential generators," Byte (10), 129 (1984)
3. Chris Hohenemser, "Notes on error analysis"
4. I. Vattulainen, T. Ala-Nissila, and K. Kankaala, "Physical tests for random numbers in simulations," Phys. Rev. Lett. 73, 2513 (1994)
5. D. P. Landau, Alan M. Ferrenberg, and Y. Johanna Wong, "Monte Carlo simulations: Hidden errors from "Good" random number generators," Phys. Rev. Lett. 69, 3382 (1992)
6. A. Compagner, "Operational conditions for random-number generation," Phys. Rev. E 52, 5634 (1995)
7. A. Compagner, "Well-tempered pseudorandom sequences as reliable sources of random numbers"
8. George H. Weiss and Robert J. Rubin, "Random walks: Theory and selected applications"
9. Elliott W. Montroll, "Random walks on lattices containing traps," J. Phys. Soc. Japan Suppl. 26, 6 (1969)
10. George H. Weiss, Sholomo Havlin, James E. Keifer, and Menachem Dishon, "Exact enumeration of random walks with traps," J. Phys. A 17, L347-L350 (1984)
11. A. Blumen, G. Zumofen, and J. Klafter, "Transport aspects in anomalous diffusion: Levy walks," Phys. Rev. A 40, 3964 (19xx)
12. Peter H. Verdier and W. H. Stockmayer, "Monte Carlo calculations on the dynamics of polymers in dilute solution," J. Chem. Phys. 36, 227 (1962)
13. Marshall N. Rosenbluth and Arianna W. Rosenbluth, "Monte Carlo calculation on the average extension of molecular chains," J. Chem. Phys. 23, 356 (195xx)
14. Panos Argyrakis and Raoul Kopelman, "Nearest-neighbor distance distributions and self-ordering in diffusion-controlled reaction. I. A + A simulations," Phys. Rev. A 41, 2114 (1990)
15. Panos Argyrakis and Raoul Kopelman, "nearest-neighbor distance distributions and self-ordering in diffusion-controlled reaction. II. A + B simulations," Phys. Rev. A 41, 2121 (1990)
16. L. Galfi and Z. Racz, "Properties of the reaction front in an A + B o C type reaction-diffusion process," Phys. Rev. A 38, 3151 (1988)
17. C. Ebner and Z. Jiang, "Simulation study of reaction fronts," Phys. Rev. A 42, 7483 (1990)
18. Rosario Nunzio Mantegna, "Levy walks and enhanced diffusion in Milan stock exchange," Physica A 179, 232-242 (1991)
19. Rosario Nunzio Mantegna, "Levy random walks in Milan stock exchange"
20. Wentian Li, "Absence of 1/f spectra in Dow Jones Daily Price," (1990)
21. R. Mark Bradley, Jean-Marc Debierre, and P. N. Strenski, "Anamalous scaling behavior in percolation with three colors," Phys. Rev. Lett. 68, 2332 (1992)
22. C. Domb, E. Stoll, and T. Schneider, "Percolation clusters," Contemp. Phys. 21, 577-592 (1980)
23. J. W. Essam, "Percolation theory," (1980)
24. Pierre Gilles de Gennes, "La percolation: un concept unificateur," (1976)
25. J. Hoshen and R. Kopelman, "Percolation and cluster distribution. I. Cluster multiple labeling technique and critical concentration algorithm," Phys. Rev. B 14, 3438 (1976)
26. B. P. Watson and P. L. Leath, "Conductivity in the two-dimensional site percolation problem," Phys. Rev. B 9, 4893 (1974)
27. Lawrence S. Schulman and Philip E. Seiden, "Percolation and Galaxies," Science 233, 425 (1986)
28. Mark Przyorowski and Mark van Woerkom, "Diffusion of many interacting random walkers on a three-dimensional lattice with a personal computer," Eur. J. Phys. 6, 242-244 (1985)
29. Christopher L. Henley, "Critical Ising spin dynamics on percolation clusters," Phys. Rev. Lett. 54, 2030 (1985)
30. H. Eugene Stanley, Armin Bunde, Shlomo Havlin, and Ralph Nossal, "Anomalous trapping," Phys. Rev. B 32, (1985)
31. H. Eugene Stanley, Armin Bunde, and Cettina Amitrano, "Diffusion of interacting particles on fractal aggregates," J. Phys. A 18, L923-L929 (1985)
32. Marvin Bishop and Craig J. Saitiel, "Structure function of linear polymers in the ideal and excluded volume regime," J. Chem. Phys. 94, 6920 (1991)
Computer Simulation: Quantum Mechanics
1. Donald G. Truhlar and Mark S. Gordon, "From Force Fields to Dynamics: Classical and Quantal Paths," Science 249, 491 (1990)
2. Stephen M. Wandzura, "Semiclassically Based Monte Carlo Evaluation of Path Integrals," Phys. Rev. Lett. 57, 2603 (1986)
3. Richard P. Feynman, "Tiny Computers Obeying Quantum Mechanical Laws," (1985)
4. James J. O'Brien, "Comment on a paper by P. B. Visscher"
5. James J. O'Brien and Germana Peggion, "An Explicit Finite-Fifference Scheme For Solving The Ocean Acoustic Parabolic Wave Equation," Comp. & Math. with Appls. 11, 937 (1985)
6. L. R. Ram-Mohan, "The finite-element method for energy eigenvalues of quantum mechanical systems," Computers in Physics 2, 50 (1990)
7. H. De Raedt, "Efficient Methods for Solving the Time-Dependent Schrodinger Equation: Application to Anderson Localization," Europhysics Letters 3, 139 (1987)
8. William H. Miller, "Semiclassical Methods in Chemical Physics," Science 233, 171 (1986)
9. James E. Draper, "Use of |47, 525 (1979) 10. R. D. Murphy and J. M. Philips, "Bound-state eigenvalues of the square-well potential," Am. J. Phys. 44, 574 (1976)
11. Barry M. Casper and Mark H. Bramhall, "Reflections on a Wave Packet Approach to quantum Mechanical Barrier Penetration," Am. J. Phys. 38, 1136 (1970)
12. Jay S. Bolemon, "Computer Solutions to a Realistic "One-Dimensional" Schrodinger Equation," Am. J. Phys. 40, 1511 (1972)
13. W. Williamson, Jr., "Monte Carlo simulation of nonrelativistic electron scattering," Am. J. Phys. 54, 263 (1986)
14. J. Shertzer, "Finite element calculation of low lying states of hydrogen in a superstrong magnetic field," Phys. Rev. A 40, 4777 (1989)
15. Marko Robnik and Eberhard Schrufer, "Hydrogen atom in a strong magnetic field: calculation of the energy levels by quantising the normal form of the regularised Kepler Hamiltonian," J. Phys. A 18, L853 (1985)
16. B. J. Berne and Jianshu Cao, "Low-temperature variational approximation for the Feynman quantum propagatior and its application to the simulation of quantum systems," J. Chem. Phys. 92, 7531 (1990)
17. David Ceperley and Berni Alder, "Quantum Monte Carlo," Science 231, 555 (1986)
18. James B. Anderson, "A random-walk simulation of the Schrodinger equation:H+3," J. Chem. Phys. 63, 1499 (1975)
19. James B. Anderson, "Quantum chemistry by random walk. H 2P, H+3 D3h 1A'1, H2 365, 4121 (1976) 20. James B. Anderson, "Quantum chemistry by random walk: Higher accuracy," J. Chem. Phys. 73, 3897 (1980)
21. Peter J. Reynolds and David M. Ceperley, "Fixed-node quantum Monte Carlo for molecules," J. Chem. Phys. 77, 5593 (1982)
22. P. J. Reynolds, R. N. Barnett, B. L. Hammond, and W. A. Lester, Jr., "Molecular Physics and Chemistry Applications of Quantum Monte Carlo," J. Stat. Phys. 43, 1017 (1986)
23. Edward T. Gawlinski, "Monte Carlo Integration of Path Integrals," (1983)
24. Philip D. Mannheim, "The physics behing path integrals in quantum mechanics," Am. J. Phys. 51, 328 (1983)
25. P. K. MacKeown, "Evaluation of Feynman path integrals by Monte Carlo methods," Am. J. Phys. 53, 880 (1985)
26. "Summary of Quantum MC methods"
27. J. A. Barker, "A quantum-statistical Monte Carlo method; path integrals with boundary conditions," J. Chem. Phys. 70, 2914 (1979)
28. W. L. McMillan, "Ground State of Liquid He," Phys. Rev. 138, A442 (1964)
Computer Simulation: Cellular Automata
1. Stephen Wolfram, "Statistical mechanics of cellular automata," Revs. Mod. Phys. 55, 601 (1983)
2. J. M. Vianney A. Koelman, "Cellular-Automaton-Based Simulation of 2D Polymer Dynamics," Phys. Rev. Lett. 64, 1915 (1990)
3. Martin Gerhardt, Heike Schuster, and John J. Tyson, "A Cellular Automaton Model of Excitable Media Including Curvature and Dispersion," Science 247, 1563 (1990)
4. Brian Hayes, "Computer recreations the cellular automaton offers a model of the world and a world unto itself," Sci. Amer.
5. Tommaso Toffoli, "CAM: A high-performance cellular-automaton machine," Physica D 10, 195 (1984)
6. Gerard Y. Vichniac, "Simulating physics with cellular automata," Physica 10, 96 (1984)
7. A. K. Dewdney, "Computer recreations building computers in one dimension sheds light on irreducibly complicated phenomena," Sci. Amer.
8. Hudong Chen, Li-Shi Lou, Shiyi Chen, Gary D. Doolen, and Yee-Chun Lee, "Generalized hydrodynamic trasport in lattice-gas automata," Phys. Rev. A 43, 7097 (1991)
9. David Dab, Jean-Pierre Boon, and Yue-Xian Li, "Lattice-Gas Automata for Coupled Reaction-Diffusion Equations," Phys. Rev. Lett. 66, 2535 (1991)
10. Raymond Kapral, Anna Lawniczak, and Paul Masiar, "Oscillations and Waves in a Reactive Lattice-Gas Automaton," Phys. Rev. Lett. 66, 2539 (1991)
11. D. d'Humieres, P. Lallemand, and T. Shimomura, "Lattice gas cellular automata- a new experimental tool for hydrodynamics," (1985)
12. Tommaso Toffoli, Norman Margolus, and Gerard Vichniac, "Cellular Automata Supercomputers for Fluid Dynamics Modeling," (1985)
13. F. Wang and E. G. D. Cohen, "Numerical Results from Lorentz Lattice Gas Cellular Automata: A Mathematical Challenge," Physica D (1986)
14. Y. Pomeau, U. Frisch, and B. Hasslacher, "A lattice gas automata for the Navier Stokes equation," (1985)
15. Stephen Wolfram and James B. Salem, "Thermodynamics and Hydrodynamics with Cellular Automata," (1985)
16. Per Bak, Michael Creutz, and Kan Chen, "Self-organized criticality in the 'Game of Life'," Nature 342, 780 (1989)
17. Charles Bennett, "'Life' not critical?," Nature 350, 468 (1991)
18. L. S. Schulman and P. E. Seiden, "Statistical Mechanics of a Dynamical System Based on Conway's Game of Life," J. Stat. Phys. 293 (1978)
19. Stuart A. Kauffman and Robert G. Smith, "Adaptive automata based on darwinian selection," Physica D 22, 68 (1986)
20. Christopher G. Langton, "Studying artificial life with cellular automata," Physica D 22, 120 (1986)
21. Norman Morgolus, "CAM-8: a computer architecture based on cellular automata," (1993)
22. Franco Celada and Philip Seiden, "Teaching immunology: a montessori approach using a computer model of the immune system"
23. L. S. Schulman, "Modeling Galaxies: Cellular Automata and Percolation," (1993)
24. R. B. Pandey, "Cellular automata approach to interacting cellular network models for the dynamics of cell population in an early HIV infection," Physica A 179, 442 (1991)
25. G. Grinstein and Charles H. Bennett, "Role of Irreversibility in Stabalizing Complex and Nonergodic Behavior in Locally Interacting Discrete Systems," Phys. Rev. Lett. 55, 657 (1985)
26. G. Grinstein, Yu He, and C. Jayaprakash, "Statistical Mechanics of Probabilistic Cellular Automata," Phys. Rev. Lett. 55, 2527 (1985)
27. Gerard Y. Vichniac and Eric Goles, "Invariants in automata networks"
28. Gerard Y. Vichniac, "Cellular automata models of disorder and organization"
29. A. K. Dewdney, "Computer recreations- Sharks and fish wage an ecological war on the toroidal planet Wa-Tor," Sci. Amer.
30. Gerard Y. Vichniac, "Taking the computer seriously in teaching science"
31. Gerard Y. Vichniac, "an introduction to cellular automata"
32. S. Takesue, "Fourier's Law and the Green-Kubo Formula in a Cellular-Automaton Model," Phys. Rev. Lett. 64, 252 (1990)
33. Stephen Wolfram, "Cellular Automaton Fluids 1: Basic Theory," (1986)
34. Michael Creutz, "Microcanonical Monte Carlo Simulation," Phys. Rev. Lett. 50, 1411 (1983)
35. Bruce M. Boghosian and C. David Levermore, "A Cellular Automaton for Burger's Equation," (1987)
36. Gerard Y. Vichniac, "Learning physics with cellular automata"
37. Stephen Wolfram, "Glider Gun Guidelines," (1985)
38. Norman H. Packard, "Complexity of growing patterns in cellular automata"
39. Stephen Wolfram, "Cellular automata as models of complexity," Nature 311, 419 (1984)
40. Stephen Wolfram, "Cellular Automata and Condensed Matter Physics," (1985)
41. Stephen Wolfram, "Preface," Physica D 10, vii (1984)
Computer Simulation: Fractals
1. Stu Borman, "Fractals Offer Mathematical Tool for Study of Complex Chemical Systems," C and E News 69, 28 (1991)
2. Mort La Brecque, "Fractals in Physics," Mosaic 18, 20 (1987)
3. "Tomorrow's shapes," Economist 99, (1987)
4. Muhammad Sahimi and Hossein Rassamdana, "On Position-Space Renormalization Group Approach to Percolation," J. Stat. Phys. 78, 1157 (1995)
5. Raphael H. Ko and Charles P. Bean, "A Simple Experiment that Demonstrates Fractal Behavior," Phys. Teacher 78 (1991)
6. Donald H. Esbenshade, Jr., "Fractal Bread," Phys. Teacher 236 (1991)
7. H. Eugene Stanley and Sasuke Miyazima, "Intersection of two fractal objects: Useful method of estimating the fractal dimension," Phys. Rev. B 35, 8898 (1987)
8. L. Pietronero, L. Niemeyer, and H. J. Wiesmann, "Fractal Dimension of Dielectric Breakdown," Phys. Rev. Lett. 52, 1033 (1984)
9. Richard F. Voss, "Random fractals: characterization and measurement," (1985)
10. "Fractal Fingers in Viscous Fluids," Science 228, 1077 (1985)
11. L. Pietronero, A. Erzan, and C. Evertsz, "Theory of Fractal Growth," Phys. Rev. Lett. 61, 861 (1988)
12. David Wilkinson and Jorge F. Willemsen, "Invasion percolation: a new form of percolation theory," J. Phys. A 16, 3365 (1983)
13. Toshiya Ohtsuki and Thomas Keyes, "Kinetic growth percolation: Epidemic processes with immunization," Phys. Rev. A 33, 1223 (1986)
14. "Space Motion Sickness and the Fractal Heart," USRA (1992)
15. J. Rosendahl, M. Vekic, and J. Kelley, "Persistent self-organization of sandpiles," Phys. Rev. E 47, 1401 (1993)
16. James Theiler, "Scaling behavior of a directed sandpile automata with random defects," Phys. Rev. E 47, 733 (1993)
17. David A. Noever, "Himalayan sandpiles," Phys. Rev. E 47, 724 (1993)
18. Takashi Nagatani, "Multifractality of flow distribution in the river-network model of Scheidegger," Phys. Rev. E 47, 63 (1993)
19. B. Fourcade and A. M. S Tremblay, "Amplitudes of Multifractal Moments at the Onset of Chaos: Universal Ratios and Crossover Functions," Phys. Rev. Lett. 64, 2659 (1990)
20. Leo P. Kadanoff, "Fractals and multifractals in avalanche models," Physica D 38, 213 (1989)
21. Sidney R. Nagel, X. D. Shi, and Michael P. Brenner, "A Cascade of Structure in a Drop Falling from a Faucet"
22. Sidney R. Nagel and Chu-heng Liu, "Sound in Sand," Phys. Rev. Lett. 68, 2301 (1992)
23. Sidney R. Nagel, James B. Knight, and H. M. Jaeger, "Vibration-Induced Size Separation in Granular Media: The Convection Connection," Phys. Rev. Lett. 70, 3728 (1993)
24. Sidney R. Nagel and Robert L. Leheny, "Model for the Evolution of River Networks," Phys. Rev. Lett. 71, 1470 (1993)
25. B. T. Werner and D.T. Gillespie, "Fundamentally Discrete Stochastic Model for Wind Ripple Dynamics," Phys. Rev. Lett. 17, 3230 (1993)
26. Sidney R. Nagel, Giovani L. Vasconcelos, and Maria de Sousa Vieira, "Implications of a conservation law for the distribution of earthquake sizes," Phys. Rev. A 44, R7869 (1991)
27. Christopher L. Henley, "Statistics of a 'Self-Organized' Percolation Model," Phys. Rev. Lett. 71, 2741 (1993)
28. Sidney R. Nagel, Giovani L. Vasconcelos, and Maria de Sousa Vieira, "Dynamics of spring-block models: Turning to criticality," Phys. Rev. E 47, R2221 (1993)
29. A. Rinaldo, I. Rodriguez-Iturbe, R. Rigon, E. Ijjasz-Vasquez, and R. L. Bras, "Self-Organized Fractal River Networks," Phys. Rev. Lett. 70, 822 (1993)
30. J. M. Carlson, E. R. Grannan, C. Singh, and G. H. Swindle, "Fluctuations in Self-Organizing Systems"
31. Stephen R. Brown, Christopher H. Scholz, and John B. Rundle, "A simplified spring-block model of earthquakes," Geophysical Research Letters 18, 215 (1991)
32. J. M. Carlson and J. S. Langer, "Mechanical model of an earthquake fault," Phys. Rev. A 40, 6470 (1989)
33. J. M. Carlson, E. R. Grannan, and G. H Swindle, "Self-orgainizing systems at finite driving rates," Phys. Rev. E 47, 93 (1993)
34. R.C. Ball and R.M. Brady, "Large scale lattice effect in diffusion-limited aggregation," L809 (1985)
35. Hajime Inaoka and Hideki Takayasu, "Water erosion as a fractal growth process," Phys. Rev. E 47, 899 (1993)
36. Hiraku Nishimori and Noriyuki Ouchi, "Formation of Ripple Pattern and Dunes by Wind-Blown Sand," Phys. Rev. Lett. 71, 197 (1993)
37. Britton Plourde, Franco Nori, and Michael Bretz, "Water Droplet Avalanches," Phys. Rev. Lett. 71, 2749 (1993)
38. Chao Tang and Shoudan Liang, "Patterns and Scaling Properties in a Ballistic Deposition Model," Phys. Rev. Lett. 71, 2769 (1993)
39. T. A. Witten and M. E. Cates, "Tenuous Structures from Disorderly Growth Process," Science 232, 1607 (1986)
40. H. Eugene Stanley, "Aggregation phenomena: models, applications and calculations," J. Phys. Soc. Japan 52, 151 (1983)
41. X. R. Wang, "Scaling of the shortest-path aggregation," Phys. Rev. A 40, (1989)
42. S. Redner, "Random multiplicative processes: An elementary tutorial," Am. J. Phys. 58, 267 (1990)
43. Byungnam Kahng, "Negative Moments of Current Distribution in Random Resistor Networks," Phys. Rev. Lett. 64, 914 (1990)
44. Leo P. Kadanoff, "Fractals and multifractals in avalanche models," Physica D 38, 213 (1989)
45. Per Bak, Kurt Wiesenfeld, and Chao Tang, "Self-Organized Criticality: An Explanation of 1/f Noise," Phys. Rev. Lett. 59, 381 (1987)
46. Per Bak and Kan Chen, "The physics of fractals," Physica D 38, 5 (1989)
47. M. N. Rosenbluth, "Random Multiplication in a Diffusive Medium," Phys. Rev. Lett. 63, 467 (1989)
48. Yi-Cheng Zhang, "Scaling Theory of Self-Organized Criticality," Phys. Rev. Lett. 63, 470 (1989)
49. Tamas Tel, "Fractals, Multifractals, and Thermodynamics," zn A 43, 1154 (1988)
50. S.S. Manna, "Critical exponents of the sand pile models in two dimensions," Physica A 179, 249 (1991)
51. Zeev Olami, Henrik Flyvbjerg, and Kim Christensen, "Self-Organized Critical Forest-Fire Model: Mean-Field Theory and Simulation Results in 1 to 6 Dimensions," Phys. Rev. Lett. 71, 2737 (1993)
52. Zeev Olami, Kim Christensen, and Hans Jacob S. Feder, "Self-Organized Criticality in a Continuous, Nonconservative Cellular Automaton Modeling Earthquakes," Phys. Rev. Lett. 68, 1244 (1992)
53. S. Kramer and M. Marder, "Evolution of River Networks," Phys. Rev. Lett. 68, 205 (1992)
54. Hajime Inaoka and Hideki Takayasu, "New Type of Self-Organized Criticality in a Model of Erosion," Phys. Rev. Lett. 68, 966 (1992)
Hard spheres
1. A. A. Sabry, "Hard sphere gas," Physica 54, 60-76 (1971)
2. D. J. Adams, "Chemical potential of hard spheres fluids by Monte Carlo methods," Mol. Phys. 28, 1241-1252 (1974)
3. G. Torrie and G. N. Patey, "Monte Carlo calculation of y(r) for the hard sphere fluid," Mol. Phys. 34, 1623-1628 (1977)
4. Robert Lynn Coldwell, "Monte Carlo evaluation of the partition function for a hard disk system," Phys. Rev. 7, 270 (1973)
5. Howard Reiss, "Scaled particle theory of hard sphere fluids to 1976"
6. Karl W. Kratky, "A new graph expansion of virial coefficients," J. Stat. Phys. 27, 533 (1982)
7. James Ross Macdonald, "Nearest-neighbor distribution functions and mean separation for impenetrable particles in one to three dimensions," Phys. Rev. A 46, R@988 (1992)
8. Frank H. Stillinger, Pablo G. Debenedetti, Dorothea K. Stillinger, Salvatore Torquato, and Thomas M. Truskett, "Triangle Distribution and Equation of State for Classical Rigid Disks," cond-mat/9910451
9. "Cavities in the hard-disk crystal: A Monte Carlo simulation study," J. Chem. Phys. 96, 4651 (1992)
Research paper: numerical order in file
1. Carlton M. Caves, "Information and entropy," Phys. Rev. E 47, 4010 (1993)
2. Carlton M. Caves, "Information, entropy, and chaos," (1992)
3. Clare C. Yu and Eric R. Grannan, "Critical behavior of the Coulomb gas," Phys. Rev. Lett. 71, 3335 (1993) Monte Carlo, lattice
4. Ryong-Joon Roe, "Short time dynamics of polymer liquid and glasses studied by molecular dynamics simulations"
5. Amitabha Chakrabarti, "Kinetics of domain growth and wetting in a model porous medium," Phys. Rev. Lett. 69, 1548 (1992)
6. Ernst Rossler, "Comment on decoupling of time scales of motion in polybutadiene close to the glass transition," Phys. Rev. Lett. 69, 1620 (1992)
7. Ernst Rossler, "Comment on decoupling of time scales of motion in polybutadiene close to the glass transition D. Richter and R. Zorn, B. Farago, B. Frick, and L. J. Fetters, reply," Phys. Rev. Lett. 69, 1621 (1992)
8. A. Maritan, G. Sartoni, and A. L. Stella, "Singular dynamical renormalization group and biased diffusion on fractals," Phys. Rev. Lett. 71, 1027 (1993)
9. Goran Wahnstrom and Yinggang Li, "Rapid local diffusion of hydrogen in Niobium revealed by a molecular dynamics study," Phys. Rev. Lett. 71, 1031 (1993)
10. F. D. Nobre, A. M. Mariz, and E. S. Sousa, "Spreading of damage: an unexpected disagreement between the sequential and parallel updatings in Monte Carlo simulations," Phys. Rev. Lett. 69, 13 (1992)
11. Carlton M. Caves and Rudiger Schack, "Information and entropy in the Baker's map," Phys. Rev. Lett. 69, 3413 (1992)
12. N. C. Pesheva, Yitzhak Shnidman, and R. K. P. Zia, "A maximum entropy mean field method for driven diffusive systems," J. Stat. Phys. 70, 737 (1993)
13. Anita Mehta and J. M. Luck, "Novel temporal behavior of a nonlinear dynamical system: the completely inelastic bouncing ball," Phys. Rev. Lett. 65, 393 (1990) projec
14. Nocos Martys, Marek Cieplak, and Mark O. Robbins, "Critical phenomena in fluid invasion of porous media," Phys. Rev. Lett. 66, 1058 (1991)
15. Yves Termonia, "Monte Carlo diffusion model of polymer coagulation," Phys. Rev. Lett. 72, 3678 (1994)
16. Horia Metiu, Kazuo Kitahara, and John Ross, "Statistical mechanical theory of the kinetics of phase transitions," Fluctuation Phenomena (1979) Elsevier Science editors: E. W. Montroll and J. L. Lebowitz,
17. C. H. Bennett, M. A. Smith, Y. Bar-Yam, Y. Rabin, B. Ostrovsky, N. Margolus, and T. Toffoli, "Parallel-processing simulation of polymers," Comput. Poly. Sci 2, 165-171 (1992)
18. D. Hansel and H. Sompolinsky, "Solvable model of spatiotemporal chaos," Phys. Rev. Lett. 71, 2710 (1993)
19. David T. Wu, "The continuum approximation in nucleation theory," J. Chem. Phys. 97, 1922 (1992)
20. Akiva J. Dickstein, S. Erramilli, Raymond E. Goldstein, David P. Jackson, and Steven A. Langer, "Labyrinthine pattern formation in magnetic fluids," Science 261, 1012-1015 (1993)
21. Carlton M. Caves and Rudiger Schack, "Hypersensitivity to perturbations in the quantum Baker's map," Phys. Rev. Lett. 71, 525 (1993)
22. A. Duncan, R. Mawhinney, and P. Stehle, "Monte Carlo simulation of real-time quantum processes," Phys. Rev. B 40, 4004 (1989)
23. Kenneth R. Yawn, Bruce N. Miller, and Williard Mier, "Stochastic dynamics of gravity in one dimension," Phys. Rev. E 52, 3390 (1995)
24. Stanley Goldberg, "Review by Robert Weinstock of Understanding Relativity," (1994)
25. B. D. Lubachevsky, V. Privman, and S. C. Roy, "Morphology of amorphous layers ballistically deposited on a planar substrate," Phys. Rev. E 47, 48 (1993)
26. N. I. Chernov, G. L. Eyink, J. L. Lebowitz, and Ya. G. Sinai, "Derivation of Ohm's law in a deterministic mechanical model," Phys. Rev. Lett. 70, 2209 (1993)
27. Edward Ott and John C. Sommerer, "Particles floating on a moving fluid: a dynamically comprehensible physical fractal," Science 259, 335 (1993)
28. Chi-Hang Lam, "Finite-size effects in diffusion-limited aggregation," Phys. Rev. E 52, 2841 (1995)
29. Koo-Chul Lee, "Monte Carlo technique for universal finite-size-scaling functions: Application to the 3-state Potts model on a square lattice," Phys. Rev. Lett. 69, 9 (1992)
30. Robert H. Swendsen and John A. Marsh, "Investigation of new isothermal molecular dynamics techniques: application to a two dimensional system of Lennard-Jones disks"
31. C. F. Tejero and J. A. Cuesta, "Hard sphere and hard disk freezing from the differential formulation of the generalized effective liquid approximation," Phys. Rev. E 47, 490 (1993) equation of state, Hoover and Ree
32. Minoru Yoshimoto, Kenichi Yoshikawa, and Yoshihito Mori, "Coupling among three chemical oscillators: synchronization, phase death, and frustration," Phys. Rev. E 47, 864 (1993)
33. John P. Rose and R. Stephen Berry, "Freezing, melting, nonwetting, and coexistence in KCI_{32," J. Chem. Phys. 98, 3246 (1993) Labastie and Whetten
34. C.-K. Peng, J. Mietus, J. M. Hausdorff, S. Havlin, H. E. Stanley, and A. L. Goldberger, "Long-range anticorrelations and non-gaussian behavior of the heartbeat," Phys. Rev. Lett. 70, 1343 (1993)
35. Marileen Dogterom and Stanislas Leibler, "Physical aspects of the growth and regulation of microtubule structures," Phys. Rev. Lett. 70, 1347 (1993) nucleation, Monte Carlo
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57. Roch Bourbonnais and Roger Maynard, "Energy transport in one and two-dimensional anharmonic lattices with isotropic disorder," Phys. Rev. Lett. 64, 1397 (1990) molecular dynamics, Euler-Cromer, project
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electronic file
M. E. Cates, K. Kroy, and W. C. K. Poon, "A cluster mode-coupling approach to weak gelation in attractive colloids," cond-mat/0310566
Sergio B. Volchan, "The Fundamental Concepts of Classical Equilibrium Statistical Mechanics," cond-mat/0310773
Tullio Scopigno, Giancarlo Ruocco, Francesco Sette, and Giulio Monaco, "Is the Fragility of a Liquid Embedded in the Properties of its Glass," Science 302, 849-852 (2003) cond-mat/0311305
Dieter W. Heermann, Armando Ticona Bustillos, and Claudette E. Cordeiro, "Reconstruction of the Free Energy in the Metastable Region using the Path Ensemble," cond-mat/0311274
Hans Behringer, "Microcanonical entropy for small magnetisations," cond-mat/0311211
Arne Soulier and Tim Halpin-Healy, "Population Fragmentation and Party Dynamics in an Evolutionary Political Game," cond-mat/030535
Sergio A. Cannas, Daniel A. Stariolo, and Cintia M. Lapilli, "Testing boundary conditions efficiency in simulations of long-range interacting magnetic models," cond-mat/0307163
Seung-Yeon Kim, "Yang-Lee zeros of the one-dimensional Q-state Potts model," cond-mat/0305456
Chiaki Yamaguchi and Yutaka Okabe, "Three-dimensional antiferromagnetic q-state Potts models: application of the Wang-Landau algorithm," cond-mat/0108540
Heinz Horner, "Glassy Dynamics and Aging in Disordered Systems," cond-mat/0312039
W. J. Mullin and G. Blaylock, "Quantum statistics: Is there an effective fermion repulsion or boson attraction?," Am. J. Phys. 71, 1223 (2003)
Thomas Prellberg and Jaroslaw Krawczyk, "Flat histogram PERM," cond-mat/031225
Anirban Chakraborti, Marco Patriarca, and Kimmo Kaski, "Gibbs versus non-Gibbs distributions in money dynamics," cond-mat/0312167
Paulo Netz, J. F. Raymundi, Adriana S. Camera, and Marcia C. Barbosa, "Dynamic Anomalies of Fluids with Isotropic Doubled-Ranged Potential," cond-mat/0312465
E. Levine, G. Ziv, L. Gray, and Mukamel, "Phase Transitions in Traffic Models," cond-mat/0312459
Jörg Rottler and A .C. Maggs, "Local Molecular Dynamics with Coulombic Interaction," cond-mat/0312438
H. Rieger and N. Kawashima, "Recent Progress in Spin Glasses," cond-mat/0312432
O. V. Patsahan and I. M.Mryglod, "Critical behavior of the restricted primitive model," cond-mat/0312372
L. Turban, "Iterated random walk," cond-mat/0312358
C. Gruber, S. Pache, and A. Lesne, "On the Second Law of thermodynamics and the piston problem," cond-mat/0312340
Jeppe C. Dyre, "On alpha relaxation in viscous liquids," cond-mat/0312677
Jean-Pierre Hansen, Reimar Finken, and Ard A Louis, "Phase separation of a multiple occupancy lattice gas
Phase separation of a multiple occupancy lattice gas," J. Phys. A 37, 577-590 (2004)
K. L. Ngai, F. Affouard, M. Descamps, and P. Bordat, "Does the interaction potential determine both the fragility of a liquid and the vibrational properties of its glassy state?," cond-mat/0401117
S. R. Nagel, C. S. O'Hern, and A. J. Liu, "Effective Temperatures in Driven Systems: Static vs. Time-Dependent Relations," cond-mat/0401105
Andreas Schadschneider, Debashish Chowdhury, and Katsuhiro Nishinari, "Self-organized patterns and traffic flow in colonies of organisms: from bacteria and social insects to vertebrates," q-bio.PE/0401006
W. Janke, D. A. Johnston, and R. Kenna, "Phase Transition Strength through Densities of General Distributions of Zeroes," cond-mat/0401097
A. Wischnewski and U. Buchenau, "Fragility and compressibility at the glass transition," cond-mat/0401088
Gang Lu and Efthimios Kaxiras, "An Overview of Multiscale Simulations of Materials," cond-mat/0401073
S. B. Yuste, L. Acedo, and Katja Lindenberg, "Reaction Front in an A+B -> C Reaction-Subdiffusion Process," cond-mat/0401071
Constantino Tsallis and Fernando D. Nobre, "Metastable States of the Classical Inertial Infinite-Range-Interaction Heisenberg Ferromagnet: Role of Initial Conditions," cond-mat/0401062
D. A. Lavis, "Is Equilibrium a Useful Concept in Statistical Mechanics?," cond-mat/0401061
F. Semerianov and P. D. Gujrati, "Configurational Entropy and its Crisis in Metastable States: Ideal Glass Transition in a Dimer Model as a Paragidm of a Molecular Glass," cond-mat/0401047
Mark O. Robbins and Robert S. Hoy, "Fcc-bcc transition for Yukawa interactions determined by applied strain deformation," cond-mat/0401045
Yougui Wang, Jinshan Wu, and Zengru Di, "Physics of Econophysics," cond-mat/0401025
Jean-Philippe Bouchaud and Giulio Biroli, "Diverging length scale and upper critical dimension in the Mode-Coupling Theory of the glass transition," cond-mat/0401260
Sorin Bastea, "Transport properties of dense fluid argon," Phys. Rev. E 68, 031204 (2003) cond-mat/0401153
J. J. Arenzon, D. A. Stariolo, and G. Fabricius, "Inherent structures dynamics in glasses: a comparative study," cond-mat/0401435
F. Sciortino and I. Saika-Voivod, "Distributions of inherent structure energies during aging," cond-mat/0401427
Federico Ricci-Tersenghi, Claude Godreche, and Florent Krzakala, "Nonequilibrium critical dynamics of the ferromagnetic Ising model with Kawasaki dynamics," cond-mat/0401334
C. Chamon, P. Charbonneau, L. F. Cugliandolo, D. R. Reichman, and M. Sellitto, "Out-of-equilibrium dynamical fluctuations in glassy systems," cond-mat/0401326
Renat M. Yulmetyev, Anatolii V. Mokshin, and Peter Hänggi, "Diffusion Time-Scale Invariance, Markovization Processes and Memory Effects in Lennard-Jones Liquids," cond-mat/0401314
C Cabrillo, F J Bermejo, A Maira-Vidal, R Fernández-Perea, S M Bennington, and D Martin, "Microscopic dynamics in simple liquids: a clue to understanding the basic thermodynamics of the liquid state," J. Phys. Condensed Matter 16, S309-S325 (2004)
Walter Kob, Wolfgang Paul, Kurt Binder, Jurgen Horbach, and Fathollah Varnik, "Molecular dynamics simulations," J. Phys. Condensed Matter 16, S429-S453 (2004)
Yisroel Brumer and David R. Reichman, "Numerical Investigation of the Entropy Crisis in Model Glass Formers," cond-mat/0401586
H. A. Posch, Ch. Forster, and D. Mukamel, "Hard Disks in Narrow Channels," cond-mat/0401570
W. Gotze and M. Sperl, "Nearly-logarithmic decay of correlations in glass-forming liquids," cond-mat/0401536
Ryoichi Yamamoto, David R. Reichman, and Kunimasa Miyazaki, "Supercooled Liquids Under Shear: Theory and Simulation," cond-mat/0401528
Leticia F. Cugliandolo, "Heterogeneities and local fluctuations in glasy systems," cond-mat/0401506
J. Hove, "Density of states determined from Monte Carlo simulations," cond-mat/0401482
Marcel Ausloos, Paulette Clippe, Janusz Miskiewicz, and Andrzej Pekalski, "A (reactive) lattice-gas approach to economic cycles," cond-mat/0402075
James W. Dufty and Matthieu H. Ernst, "Exact Short Time Dynamics for Steeply Repulsive Potentials," cond-mat/0401635
Michel L. Goldstein, Steven A. Morris, and Gary G. Yen, "Fitting to the Power-Law Distribution," cond-mat/0402322
A. Alan Middleton, "Improved extremal optimization for the Ising spin glass," cond-mat/0402295
Stefan Boettcher and Allon G. Percus, "Extremal Optimization at the Phase Transition of the 3-Coloring Problem," cond-mat/0402282
H. Lowen, C. N. Likos, P. Tartaglia, F. Sciortino, E. Zaccarelli, and P.P.F. Wessels, "Is there a reentrant glass in binary mixtures?," cond-mat/0402254
S. Davatolhagh, "Configurational specific heat and relaxation length in supercooled liquids," cond-mat/0402214
Werner Ebeling, Thorsten Poeschel, Cornelius Froemmel, and Rosa Ramirez, "Correction algorithm for finite sample statistics," q-bio.OT/0401040 Eur. Phys. J. E 12, 531-541 (2003).
J. D. Munoz and M. L. Guerra, "Equilibrium Times for the Multicanonical Method," cond-mat/0402191
C.H. Mak and Sergei Zakharov, "A Multigrid Algorithm for Sampling Imaginary-Time Paths in Quantum Monte Carlo Simulations," cond-mat/0402181
G. Pastore and R. Fantoni, "Computer simulation study of the closure relations in hard sphere fluids," cond-mat/0402491
Alan D. Sokal and Giovanni Ossola, "Dynamic critical behavior of the Swendsen--Wang Algorithm for the three-dimensional Ising model," hep-lat/0402019
H. J. Herrmann and M.C. Gonzalez, "Scaling of the propagation of epidemics in a system of mobile agents," cond-mat/0402443
Sharon C. Glotzer and Michael Vogel, "Spatially heterogeneous dynamics and dynamic facilitation in a model of viscous silica," cond-mat/0402427
F. Sciortino and S.-H. Chong, "Structural relaxation in supercooled orthoterphenyl," cond-mat/0402424
Rodney L. Varley, "The Bare Diffusion Coefficient and the Peculiar Velocity Auto-Correlation Function," cond-mat/0402422
Daan Frenkel and Sander Pronk, "Melting of Polydisperse Hard Disks," cond-mat/0402414
Maria de Sousa Vieira, "Are Avalanches in Sandpiles a Chaotic Phenomenon?," cond-mat/0402365
M. E. Cates, K. Kroy, and W. C. K. Poon, "A cluster mode-coupling approach to weak gelation in attractive colloids," cond-mat/0310566
Hiroaki Katsuragi, Daisuke Sugino, and Haruo Honjo, "Binomial multiplicative model of critical fragmentation," cond-mat/0310479 statistical mechanics
M. H. Ernst and R. Brito, "Anomalous velocity distributions in inelastic Maxwell gases," cond-mat/0310406
Ulrich H.E. Hansmann, "Generalized-Ensemble Simulations of the Human Parathyroid Hormone Fragment PTH(1-34)," cond-mat/0310553
Normand Mousseau and G.T. Barkema, "Efficient sampling in complex materials at finite temperature: the thermodynamically-weighted activation-relaxation technique," cond-mat/0310422
Per Nordblad, "Spin glasses: model systems for non-equilibrium dynamics," J. Phys. C 16, S715-S722 (2004)
A. P. Young and L. Berthier, "Time and length scales in spin glasse," J. Phys. C 16, S729-S734 (2004)
P M C de Oliveira, R A Nóbrega, and D Stauffer, "Are the tails of percolation thresholds Gaussians?," J. Phys. A 37, 3743-3748 (2004)
George D. J. Phillies, "Viscosity of Suspensions of Hard and Soft Spheres," cond-mat/0403305
C.B. Yang and Rudolph C. Hwa, "The origin of power-law distributions in self-organized criticality," cond-mat/0403304
Raul Toral, "Derivation of the equilibrium properties of the long-range Ising model using a generalized canonical ensemble," cond-mat/0403292
Frank H. Stillinger, P. M. Chaikin, Aleksandar Donev, and SalvatoreTorquato, "Superdense Crystal Packings of Ellipsoids," cond-mat/0403286
Ciro Cattuto, Umberto Marini, and Bettolo Marcon, "Ordering phenomena in cooling granular mixtures," cond-mat/0403203
I. M. Mryglod, R. Folk, I.P. Omelyan, and W. Fenz, "Ising fluids in an external magnetic field: an integral equation approach," cond-mat/0403402
Thomas Prellberg and Jarosaw Krawczyk, "Flat Histogram Version of the Pruned and Enriched Rosenbluth Method," Phys. Rev. Lett. 92, 120602 (2004)
Giorgio Parisi, Andrea Cavagna, and Irene Giardina,, "Numerical Study of Metastable States in Ising Spin Glasses," Phys. Rev. Lett. 92, 120603 (2004)
G. Parisi, A. Crisanti, L. Leuzzi, and T. Rizzo, "Spin-Glass Complexity," Phys. Rev. Lett. 92, 127203 (2004)
Richard Brak, Jan de Gier, and Vladimir Rittenberg, "Nonequilibrium stationary states and equilibrium models with long range interactions," J. Phys. A 37, 4303-4320 (2004)
Enzo Marinari and Estelle Pitard, "A Topographic-Non-Topographic Paradigm for Glassy Dynamics," cond-mat/0404214
Normand Mousseau and G.T. Barkema, "Accelerated dynamics with the dynamical activation-relaxation technique," cond-mat/0404128
Martin Depken and Robin Stinchcombe, "Fluctuation-dissipation relation and the Edwards entropy for a glassy granular compaction model," cond-mat/0404111
I. M. Mryglod and O V. Patsahan, "Critical behaviour of the restricted primitive model," J. Phys. C 16, L235–L241 (2004)
Gianfranco Durin and Stefano Zapperi, "The Barkhausen effect," cond-mat/0404512
Philipp Maass, Falk Scheffler, Johannes Roth, and Holger Stark, "Quasicrystalline Order in Binary Dipolar Systems," cond-mat/0404430
A. Heuer and J. Reinisch, "How Cooperative are the Dynamics in Tunneling Systems? A Computer Study for an Atomic Model Glass," cond-mat/0404675
M López de Haro and M Robles, "The structure factor and equation of state of hard-sphere fluids," J. Phys. C 16, S2089-S2096 (2004)
David A. Kofke and Jayant K. Singh, "Mayer Sampling: Calculation of Cluster Integrals using Free-Energy Perturbation Methods," Phys. Rev. Lett. 92, 220601 (2004)
Daan Frenkel, Hartmut Lowen, Ronald Blaak, and Stefan Auer, "Crystal Nucleation of Colloidal Suspensions under Shear," cond-mat/0406237
David R. Reichman, Eran Rabani,, and Phillip L. Geissler, "Comparison of Dynamical Heterogeneity in Hard-Sphere and Attractive Glass Formers," cond-mat/0406136 [abs
Qiliang Yan, Tushar S. Jain, and Juan J. de Pablo, "Density-of-States Monte Carlo Simulation of a Binary Glass," Phys. Rev. Lett. 92, 235701 (2004)
Arun Yethiraj and Kamakshi Jagannathan, "Molecular Dynamics Simulations of a Fluid near Its Critical Point," Phys. Rev. Lett. 93, 015701
Dirk Zahn and Stefano Leoni, "Nucleation and Growth in Pressure-Induced Phase Transitions from Molecular Dynamics Simulations: Mechanism of the Reconstructive Transformation of NaCl to the CsCl-Type Structure," Phys. Rev. Lett. 92, 250201 (2004)
A. H. Romero, J. M. Sancho, K. Lindenberg, A. M. Lacasta, and I. M. Sokolov, "Diffusion on a Solid Surface: Anomalous is Normal," Phys. Rev. Lett. 92, 250601 (2004) Langevin Equation
Baowen Li, Giulio Casati, Jiao Wang, and Toma Prosen, "Fourier Law in the Alternate-Mass Hard-Core Potential Chain," Phys. Rev. Lett. 92, 254301 (2004)
Frank H. Stillinger, Salvatore Torquato, P. M. Chaikin, and Aleksandar Donev, "Unusually Dense Crystal Packings of Ellipsoids," Phys. Rev. Lett. 92, 255506 (2004)
Michael V. Massa and Kari Dalnoki-Veress, "Homogeneous Crystallization of Poly(Ethylene Oxide) Confined to Droplets: The Dependence of the Crystal Nucleation Rate on Length Scale and Temperature," Phys. Rev. Lett. 92, 255509 (2004)
E. Sanz, C. Vega, J. L. F. Abascal, and L. G. MacDowel, "Phase Diagram of Water from Computer Simulation," Phys. Rev. Lett. 92, 255701 (2004)
Léonie Canet, Hugues Chate, and Bertrand Delamotte, "Quantitative Phase Diagrams of Branching and Annihilating Random Walks," Phys. Rev. Lett. 92, 255703 (2004)
Kunihiko Kaneko and Akinori Awazu, "Relaxation to Equilibrium Can Be Hindered by Transient Dissipative Structures," Phys. Rev. Lett. 92, 258302 (2004)
Jianshu Cao and James B. Witkoskie, "Scaling and universality of inherent structure simulations," Phys. Rev. E 69, 061108 (2004)
D. S. Dean and A. Lefčvre, "Self-diffusion in a system of interacting Langevin particles," Phys. Rev. E 69, 061111 (2004) Use clump model.
Full Text: [ PDF (115 kB) GZipped PS Order Document ]
1,2 and 3
YounJoon Jung, Juan P. Garrahan, and David Chandler, "Excitation lines and the breakdown of Stokes-Einstein relations in supercooled liquids," Phys. Rev. E 69, 061205 (2004)
Takahiro Hatano, "Dislocation Nucleation in Shocked fcc Solids: Effects of Temperature and Preexisting Voids," Phys. Rev. Lett. 93, 085501 (2004)
David Chandler and Albert C. Pan, "Dynamics of Nucleation in the Ising Model," cond-mat/0408331
Kyle J. Caspersen, Adrian Lew, Michael Ortiz, and Emily A. Carter, "Importance of Shear in the bcc-to-hcp Transformation in Iron," Phys. Rev. Lett. 93, 115501 (2004)
M. Guthrie, C. A. Tulk, J. Benmore, J. Xu, J. L. Yarger, D. D. Klug, J. S. Tse, H-k. Mao, and R. J. Hemley, "Formation and Structure of a Dense Octahedral Glass," Phys. Rev. Lett. 93, 115502 .
Daan Frenkel, Hartmut Lowen, Ronald Blaak, and Stefan Auer, "Crystal Nucleation of Colloidal Suspensions under Shear," Phys. Rev. Lett. 93, 068303 (2004)
Yukito Iba and Hisanao Takahashi, "Multi-dimensional Density of States by Multicanonical Monte Carlo," cond-mat/0407396
K. Kovacs, Y. Brechet, and Z. Neda, "A spring-block model for Barkhausen noise," cond-mat/0407389
Jian-Sheng Wang and Robert H. Swendsen, "Replica Monte Carlo Simulation (Revisited)," cond-mat/0407273
U. Buchenau, "On the energy landscape at the glass transition," cond-mat/0407241
Alain Decoster, "Variational principles and thermodynamical perturbations," J. Phys. A 37, 9051-9070 (2004)
Duane C. Wallace, Eric D. Chisolm, and Brad E. Clements, "Observation of Single Transits in Supercooled Monatomic Liquids," Phys. Rev. E 64, 011205 (2001) cond-mat/0409628 Journal-ref: Phys. Rev. E, ()
Sylvain Reynal and Hung-The Diep, "Simulation of Spin Models in Multicanonical Ensemble with Collective Updates," cond-mat/0409529
Biman Bagchi and Dwaipayan Chakrabarti, "Frequency dependent heat capacity within a kinetic model of glassy dynamics," cond-mat/0409467
J.-M. Caillol, "New mean field theories for the liquid-vapor transition of charged hard spheres," cond-mat/0409455
Jörg Rottler and A. C. Maggs, "Local Molecular Dynamics with Coulombic Interactions," Phys. Rev. Lett. 93, 170201 (2004)
C. Reichhardt and C. J. Olson Reichhardt, "Noise at the Crossover from Wigner Liquid to Wigner Glass," Phys. Rev. Lett. 93, 176405 (2004)
W. Gotze and M. Sperl, "Critical decay at higher-order glass-transition singularities," J. Phys. C 16, S4807-S4830 (2004) http://www.iop.org/EJ/toc/-alert=9867/0953-8984/16/42
Roberto Livi, Stefano Lepri, and Antonio Politi, "Studies of thermal conductivity in Fermi-Pasta-Ulam like lattices," cond-mat/0410538
Eric Bertin, "Real space analysis of inherent structures," cond-mat/0410537
Juan P. Garrahan, David Chandler, and Albert C. Pan, "Heterogeneity, growing lengthscales, and universality in the dynamics of kinetically constrained lattice gases in two dimensions," cond-mat/0410525
Barry M. McCoy and Nathan Clisby, "New results for virial coefficients of hard spheres in D dimensions," cond-mat/0410511
Mario Ruetti, Matthias Troyer, and Wesley P. Petersen, "A Generic Random Number Generator Test Suite," math.ST/0410385
Ph. Chomaz and F. Gulminelli, "Phase Transition in Small System," cond-mat/0410426
F. Alet, "The ALPS project: open source software for strongly correlated systems," cond-mat/0410407 P. Dayal, A. Grzesik, A. Honecker, M. Koerner, A. Laeuchli, S.R. Manmana, I.P. McCulloch, F. Michel, R.M. Noack, G. Schmid, U. Schollwoeck, F. Stoeckli, S. Todo, S. Trebst, M. Troyer, P. Werner, S. Wessel, for the ALPS collaboration
Bernd A. Berg, Hildegard Meyer-Ortmanns, and Alexander Velytsky, "Dynamics of Phase Transitions: The 3D 3-state Potts model," Phys. Rev. D 70, 054505 (2004) hep-lat/0405011
A. Santos, J. Largo, J. R. Solana, and S. B.Yuste, "Pair correlation function of short-ranged square-well fluids," cond-mat/0410702
J. S. Langer and Anaël Lemaître, "Dynamic Model of Super-Arrhenius Relaxation Rates in Glassy Materials," cond-mat/0411038
Moshe Schwartz, "Bose-Einstein Condensation and the Glassy State," Phys. Rev. Lett. 93, 205701 (2004)
Jerome Faillettaz, Francois Louchet, and Jean-Robert Grasso, "Two-Threshold Model for Scaling Laws of Noninteracting Snow Avalanches," Phys. Rev. Lett. 93, 208001 (2004)
Michael R. Swift, Duncan A. Sanders, R. M. Bowley, and P. J. King, "Are Brazil Nuts Attractive?," Phys. Rev. Lett. 83, 208002 (2004)
M. Parrinello, R. Martonak, A. Laio, M. Bernasconi, C. Ceriani, and P. Raiter, "Simulation of structural phase transitions by metadynamics," cond-mat/0411559
Ariel Caticha and Chih-Yuan Tseng, "Maximum Entropy and the Variational Method in Statistical Mechanics: an Application to Simple Fluids," cond-mat/0411625
L. Reatto and A. Imperio, "Bidimensional fluid system with competing interactions: spontaneous and induced pattern formation," cond-mat/0410277
A. Cacciuto, S. Auer, and D. Frenke, "Breakdown of Classical Nucleation Theory near Isostructural Phase Transitions," Phys. Rev. Lett. 93, 166105 (2004)
Jorg Rottler and A.C. Maggs, "Local Molecular Dynamics with Coulombic Interactions," Phys. Rev. Lett. 93, 170201 (2004)
Shankar P. Das, "Mode-coupling theory and the glass transition in supercooled liquids," Revs. Mod. Phys. 76, 785 (2004)
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M. E. J. Newman, "Power laws, Pareto distributions and Zipf’s law," cond-mat/0412004
Daniel J. Lacks and Mark J. Osborne, "Energy Landscape Picture of Overaging and Rejuvenation in a Sheared Glass," Phys. Rev. Lett. 93, 255501 (2004)
P. Virnau and M. Mueller, "Successive Umbrella Sampling," cond-mat/0306678 extension of umbrella sampling in which the range of states is subdivided in windows that are sampled consecutively and linked together. Extrapolating results from one window we estimate a weight function for the neighboring window. We present a detailed analysis and demonstrate that the error is controlled and independent of the window sizes. The analysis also allows us to detect sampling difficulties. The efficiency of the algorithm is comparable to a multicanonical simulation with an ideal weight function. We exemplify the computational scheme by simulating the liquid-vapor coexistence in a Lennard--Jones system.
K. Binder, B. J. Schulz, M. Müller, and D.P. Landau, "Avoiding Boundary Effects in Wang-Landau Sampling," Phys. Rev. E 67, 067102 (2003) cond-mat/0302123
K. Binder, M. Mueller, and B .J. Schulz, "Flat Histogram Method of Wang-Landau and N-fold Way," Int. J. Mod. Phys. C 13, 477 (2002) cond-mat/0112037
F. Sciortino and C. De Michele, "Equilibration times in numerical simulation of structural glasses: comparing parallel tempering and conventional molecular dynamics
Equilibration times in numerical simulation of structural glasses:," Phys. Rev. E 65, 051202 (2002)
Ludovic Berthier, Juan P. Garrahan, Peter Mayer, and Peter Sollich, "Dynamic Heterogeneity in the Glauber-Ising chain," cond-mat/0502271
M G Vasin and V I Lad’yanov, "Fischer cluster formation in supercooled liquids within the framework of the continuous theory of defects," J. Phys. Condensed Matter 17, S1287–S1292 (2005)
Antonio Coniglio, "Percolation and critical points," J. Phys. Condensed Matter 13, 9039–9053 (2001)
Pasquale Calabrese and Andrea Gambassi, "Ageing properties of critical systems," J. Phys. A 38, R133-R193 (2005)
Ali Naji, Swetlana Jungblut, Andre G. Moreira, and Roland R. Netz , "Electrostatic interactions in strongly coupled soft matter," Physica A 352, 131-170 (2005)
Kunimasa Miyazaki and David R Reichman, "Mode-coupling theory and the fluctuation-dissipation theorem for nonlinear Langevin equations with multiplicative noise," J. Phys. A 38, L343-L355 (2005)
Paolo Grinza and Alessandro Mossa, "Topological Origin of the Phase transition in a Model of DNA Denaturation," Phys. Rev. Lett. 92, 158102 (2004)
Thierry Dauxois, Nikos Theodorakopoulos, and Michel Peyrard, "Thermodynamic Instabilities in One Dimension: Correlations, Scaling and Solitons," J. Stat. Phys. 107, 869 (2002) Journal of Statistical Physics, 3-4 ()
, ; , ; ,Â
"Optimized ensemble Monte Carlo simulations of dense Lennard-Jones fluids," J. Chem. Phys. 123, 204501 (2005)
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To be filed
1. A. P. Young, Helmut G. Katzgraber, and Matteo Palassini, "Spin Glasses at Low Temperatures," cond-mat/0007113
2. J. P. Hansen, A. A. Louis, and P. G. Bolhuis, "Mean Field Fluid Behavior of the Gaussian Core Model," cond-mat/0007062
3. Ludger Santen, Andreas Schadschneider, and Debashish Chowdhury, "Statistical Physics of Vehicular Traffic and Some Related Systems," Physics Reports 329, 199 (2000) cond-mat/0007053
4. H. Lowen, C. N. Likos, M. Watzlawek, and A. Lang, "Fluid and solid phases of the Gaussian core model," J. Phys. C 12, 5087 (2000) cond-mat/0007229
5. Francesco Sciortino and Piero Tartaglia, "Extension of the Fluctuation-Dissipation theorem to the physical aging of a model glass-forming liquid," cond-mat/0007208
6. Claudio Donati, Francesco Sciortino, and Piero Tartaglia, "Role of the unstable directions in the equilibrium and aging dynamics of supercooled liquid," cond-mat/0007207
7. L. B. Ioffe and A. V. Lopatin, "Replica symmetry breaking in long-range glass models without quenched disorder," cond-mat/0007147
8. Giorgio Parisi, Barbara Coluzzi, and Paolo Verrocchio, "Comment on "Liquid Limits: The Glass Transition and Liquid-Gas Spinodal Boundaries of Metastable Liquids"," cond-mat/000714
9. Jayanth R. Banavar, Marek Cieplak, and Joel Koplik, "Molecular dynamics of flows in the Knudsen regime," cond-mat/0007132
10. Bob Rink, "Symmetry and resonance in periodic FPU chains," nlin.CD/0007017
11. Tommaso Toffoli, "What you always wanted to know about genetic algorithms but were afraid to hear," nlin.AO/0007013
12. Denis Bernard, "Turbulence for and by amateurs," cond-mat/0007106
13. M. M. Tsypin and H. W. J. Blote, "Probability distribution of the order parameter for the three-dimensional Ising-model universality class: A high-precision Monte Carlo study," Phys. Rev. E 62, 73-76 (2000)
14. M. M. Tsypin, H. W. J. Blote, and J. R. Heringa, "Three-dimensional Ising model in the fixed-magnetization ensemble: A Monte Carlo study," Phys. Rev. E 62, 77-82 (2000)
15. Alessandro Campa, Andrea Giansanti, and Daniele Moroni, "Canonical solution of a system of long-range interacting rotators on a lattice," Phys. Rev. E 62, 303-306 (2000)
16. Anatoly M. Tsirlin and Vladimir Kazakov, "Maximal work problem in finite-time thermodynamics," Phys. Rev. E 62, 307-316 (2000)
17. Pablo G. Debenedetti, Aleksey Vishnyakov, and Alexander V. Neimark, "Statistical geometry of cavities in a metastable confined fluid," Phys. Rev. E 62, 538-544 (2000)
18. G. Ruocco, R. Di Leonardo, M. Sampoli, and S. Mossa, "Molecular dynamics simulation of the fragile glass-former orthoterphenyl: A flexible molecule model," Phys. Rev. E 62, 612-63 (2000)
19. J. Toulouse, G. Q. Shen, S. Beaufils, B. Bonello, Y. H. Hwang, P. Finkel, J. Hernandez, M. Bertault, M. Maglione, C. Ecolivet, and H. Z. Cummins, "Experimental studies of the liquid-glass transition in trimethylheptane," Phys. Rev. E 62, 783-792 (2000)
20. R. L. Jacobs, "Correlation functions for glass-forming systems," Phys. Rev. E 62, 1438-1440 (2000)
21. B. J. Berne and Huafeng Xu, "Multicanonical jump walk annealing: An efficient method for geometric optimization," J. Chem. Phys. 112, 2701 (2000)
22. Hemant Bokil, Barbara Drossel, and M. A. Moore, "Spin glasses without time-reversal symmetry and the absence of a genuine structural glass transition," cond-mat/0007315
23. Yan Levin, "Crystallization of hard spheres under gravity," cond-mat/0007288
24. Andrea Cavagna, Irene Giardina, Kurt Broderix, Kamal K. Batthacharya, and Annette Zippelius, "Energy landscape of a Lennard-Jones liquid: Statistics of the stationary points," cond-mat/0007258
25. L. Angelani, R. Di Leonardo, A. Scala, G. Guocco, and F. Sciortino, "Saddles in the energy landscape probed by supercooled liquids," cond-mat/0007241
26. Andrea Cavagna, Kamal K. Bhattacharya, Irene Giardina, Kurt Broderix, and Annette Zippelius, "Saddles on the potential energy landscape of a Lennard-Jones liquid," cond-mat/0008153
27. Jean-Philippe Bouchaud, Marc Potters, and Dragan Sestovic, "Hedged Monte-Carlo: low variance derivative pricing with objective probabilities," cond-mat/0008147
28. John D. Weeks and Kirill Katsov, "Density fluctuations and the structure of a nonuniform hard sphere fluid," cond-mat/0008124
29. Ariel Caticha, "Maximum entropy and fluctuations and priors," math-ph/0008017
30. Muoi Tran, M. V. N. Murthy, and R. K. Bhaduri, "Ground state fluctuations in finite Fermi and Bose systems," cond-mat/0008114
31. M. Kastner and M. Promberger, "Consistency of Microcanonical and Canonical Finite-Size Scaling," cond-mat/0008106
32. Mitsuhiro Kawasaki, "Thermodynamical Relations in Systems with Aging and Slow Relaxation," cond-mat/0008091
33. H. G. Evertz and W. von der Linden, "Simulations on Infinite Size Lattices," cond-mat/0008072
34. Peter Borrmann, Jens Harting, Oliver Muelken, and Eberhard R. Hilf, "Calculation of thermodynamic properties of finite Bose-Einstein systems," Phys. Rev. A 60, 1519 (1999)
35. Alexander I. Olemskoi and Ivan Krakovsky, "Two Simple Approaches to Sol-Gel Transition," cond-mat/0008161
36. Yukito Iba, "Population-based Monte Carlo algorithms," cond-mat/0008226
37. L. L. Goncalves, M. Lopez de Haro, and J. Taguena-Martinez, "Nagel scaling and relaxation in the kinetic Ising model on a n-isotopic chain," cond-mat/0008222
38. E. A. Jagla, "Fragile-strong transitions and polyamorphism in glass former fluids," cond-mat/0008218
39. Tsuyoshi Hondou and Ken Sekimoto, "Inattainability of Carnot efficiency in the Brownian heat engine," Phys. Rev. E cond-mat/0008176
40. W. Gotze, M. Fuchs, Th. Voigtmann, P. Tartaglia, F. Sciortino, K. Dawson, G. Foffi, M. Sperl, and E. Zaccarelli, "Higher order glass-transition singularities in colloidal systems with attractive interactions," Phys. Rev. E cond-mat/0008358
41. J. A. Hernando and L. Blum, "Density functional formalism in the canonical ensemble," cond-mat/0008291
42. John D. Weeks, Kirill Katsov, and Katharina Vollmayr-Lee, "Using mean field theory to determine the structure of uniform fluids," cond-mat/0008369
43. Ibrahim Fatkullin, Konstantin Kladko, Igor Mitkov, and A. R. Bishop, "Anomalous relaxation and self-organization in non-equilibrium processes," cond-mat/0008309
44. U. Buchenau, "Mechanical Relaxation in Glasses and at the Glass Transition," cond-mat/0008280
45. G. Parisi, P. Verrocchio, M. Mezard, and V. Martin-Mayor, "The dynamical structure factor in topologically disordered systems," cond-mat/0008472
46. Shankar P. Das and Charanbir Kaur, "Heterogeneities in Supercooled liquids: A Density Functional Study," cond-mat/0008436
47. Xiaoyu Xia and Peter G. Wolynes, "Microscopic Theory of Heterogeneity and Non-Exponential Relaxations in Supercooled Liquids," cond-mat/0008432
48. A. D. Bruce and N. B. Wilding, "Freezing by Monte Carlo Phase-Switch," cond-mat/0009062
49. Louis Colonna-Romano, Stephen W. Pierson, and Mark Friesen, "Dynamic scaling theory of the Kosterlitz-Thouless-Berezinskii transition: ubiquitous finite size effects," cond-mat/0009226
50. Brian R. La Cour and William C. Schieve, "A Comment on the Tsallis Maximum Entropy Principle," cond-mat/0009216
51. Ronald Dickman, "First-order phase transition in a driven lattice gas with nearest-neighbor exclusion," cond-mat/0009339
52. J. J. Arenzon, F. Ricci-Tersenghi, and D. A. Stariolo, "Dynamics of the frustrated Ising lattice gas," Phys. Rev. E (2000) cond-mat/0009338
53. Bongsoo Kim and Kyozi Kawasaki, "An exactly solvable toy model that mimics the mode coupling theory of supercooled liquid and glass transition," cond-mat/0009326
54. Leonid Burakovsky and Dean L. Preston, "Dislocation-Mediated Melting: The One-Component Plasma Limit," cond-mat/0009286
55. Andrea Crisanti, "Configurational entropy and the one-step RSB scenario in glasses," cond-mat/0009261
56. Stephan Mertens, "A physicist's approach to number partitioning," cond-mat/0009230
57. W. C. Barber and D. P. Belanger, "Monte Carlo Simulations of the Random-Field Ising Model," cond-mat/0009228
58. Felix Ritort and Adan Garriga, "Validity of the zero-thermodynamic law in off-equilibrium coupled harmonic oscillators," cond-mat/0009428
59. Sumiyoshi Abe and A. K. Rajagopal, "Macroscopic thermodynamics of equilibrium characterized by power-law canonical distributions," cond-mat/0009400
60. Susanna C. Manrubia and Damian H. Zanette, "Vertical transmission of culture and the distribution of family names," nlin.AO/0009046
61. A. Mitsutake and Y. Okamoto, "Replica-Exchange Simulated Tempering Method for Simulations of Frustrated Systems," cond-mat/000938
62. Qiuping A. Wang, "Generalizations of statistical mechanics on the basis of an incomplete information theory," cond-mat/0009354
63. B. Jancovici, "Pressure and Stress Tensor in a Yukawa Fluid," J. Stat. Phys. cond-mat/0009342
64. Alexander Patashinski, "Nonequilibrium Critical Phenomena," cond-mat/0010097
65. Harald A. Forbert and Siu A. Chin, "Fourth Order Diffusion Monte Carlo Algorithms for Solving Quantum Many-Body Problems," nucl-th/0009068
66. Joel L. Lebowitz, "Statistical Mechanics: A Selective Review of Two Central Issues," Reviews of Modern Physics 71, S346 (1999) math-ph/0010018
67. Leticia F. Cugliandolo, Ludovic Berthier, and Jose Luis Iguain, "Glassy systems under time-dependent driving forces: application to slow granular rheology," cond-mat/0010266
68. P. Grassberger and W. Nadler, "Go with the winners"-Simulations," cond-mat/0010265
69. H. E. Stanley, A. Scala, M. Reza Sadr-Lahijany, N. Giovambattista, and S. V. Buldyrev, "Water-Like Anomalies for Core-Softened Models of Fluids: Two-Dimensional Systems," cond-mat/0010216
70. A. P. Young, "Computer Science in Physics," cond-mat/0010371
71. P. Nielaba, W. Strepp, and S. Sengupta, "Phase Transitions of Hard Disks in External Periodic Potentials: A Monte Carlo Study," cond-mat/0010345
72. R. F. Bishop, D. J. J. Farnell, and M. L. Ristig, "Ab Initio Treatments of the Ising Model in a Transverse Field," cond-mat/0011043
73. G. Parisi, E. Marinari, F. Ricci-Tersenghi, and F. Zuliani, "On the Use of Optimized Monte Carlo Methods for Studying Spin Glasses," cond-mat/0011039
74. D. R. Strachan, M. C. Sullivan, P. Fournier, P. Pai, T. Venkatesan, and C. J. Lobb, "Is there a vortex-glass transition in high-temperature superconductors?," cond-mat/0011014
75. Somendra M. Bhattacharjee, "Critical Phenomena: An Introduction from a modern perspective," cond-mat/0011011
76. Daniel A. Stariolo, "Dynamic ultrametricity in finite dimensional spin glasses," cond-mat/0010495
77. Daniel C. Hong, Paul V. Quinn, and Stefan Luding, "The Reverse Brazil Nut Problem: Competition between Percolation and Condensation," cond-mat/0010459
78. Martin H. Muser, "Simulation of Material Properties Below the Debye Temperature: A Path-Integral Molecular Dynamics Case Study of Quartz," J. Chem. Phys. cond-mat/0011137
79. F. Matsubara, T. Shirakura, and and S. Endoh, "Phase Transition of a Heisenberg Spin-Glass Model in Three Dimensions," cond-mat/0011218
80. D. P. Landau and Fugao Wang, "An efficient, multiple range random walk algorithm to calculate the density of states," cond-mat/0011174
81. Peter G. Wolynes, Joerg Schmalian, and Harry Westfahl, "On the Number of Metastable States in a Stripe Glass," ntl. J. of Mod. Phys. B cond-mat/0011525
82. L. Angelani, G. Parisi, G. Ruocco, and R. Di Leonardo, "Topological Description of the Aging Dynamics in Simple Glasses," cond-mat/0011519
83. M. Kastner and M. Promberger, "Comment on a Comparison Between Broad Histogram and Multicanonical Methods," cond-mat/0011516
84. V. Meden and K. Schoenhammer, "Comment on "Canonical and Microcanonical Calculations for Fermi Systems," Phys. Rev. Lett. 85, 5254 (2000) nucl-th/9905055 Comment on S. Pratt, Phys. Rev. Lett. 84, 4255
85. Remi Jullien, Philippe Jund, and Ian Campbell, "Random walks on fractals and stretched exponential relaxation," Phys. Rev. E cond-mat/0011494
86. Jorge Kurchan, Alain Barrat, Vittorio Loreto, and Mauro Sellitto, "Edwards' measures: a thermodynamic construction for dense granular media and glasses," cond-mat/0011492
87. Klaus Morawetz, "On a correspondence between classical and quantum particle systems," physics/0011059
88. I. P. Omelyan, I. M. Mryglod, and R. Folk, "Conservation-laws-preserving algorithms for spin dynamics simulations," Europhysics Letters 52, 603-609 (2000) cond-mat/0012108
89. S. F. Edwards and Moshe Schwartz, "The nature of the long time decay at a second order transition point," cond-mat/0012106
90. Ronald Dickman, "Ising Meets Ornstein and Zernike, Debye and Huckel, Widom and Rowlinson, and Others," cond-mat/0012079
91. T. Keyes and J. Chowdhary, "Inherent-Structure Dynamics and Diffusion in Liquids," cond-mat/0012066
92. I. P. Omelyan, I. M. Mryglod, and R. Folk, "Algorithm for molecular dynamics simulations of spin liquids," Phys. Rev. Lett. cond-mat/0012059
93. Srikanth Sastry, "Onset Temperature of Slow Dynamics in Glass Forming Liquids," cond-mat/0012054
94. Robert A. Pelcovits and N. Priezjev, "Cluster Monte Carlo Simulations of the Nematic-Isotropic Transition," cond-mat/0012032
95. Wolfhard Janke and Ralph Kenna, "The Strength of First and Second Order Phase Transitions from Partition Function Zeroes," cond-mat/0012026
96. Michel J. P. Gingras and Byron C. den Hertog, "Origin of Spin Ice Behavior in Ising Pyrochlore Magnets with Long Range Dipole Interactions: an Insight from Mean-Field Theory," cond-mat/0012275
97. A. V. Filinov, M. Bonitz, and Yu. E. Lozovik, "Wigner Crystallization in mesoscopic 2D electron systems," cond-mat/0012265
98. P. M. C. de Oliveira, T. J. P. Penna, and A.R. Lima, "Reply to a comment on A Comparison Between Broad Histogram and Multicanonical Methods," cond-mat/0012255
99. L.-M. Martinez and C.A. Angell, "Vibrational entropy, configurational entropy, and the fragility of glassforming liquids," cond-mat/0012248
100. N. E. Israeloff and E. Vidal Russell, "Direct observation of molecular cooperativity near the glass transition," Nature 408, 695 (2000) cond-mat/0012245
101. X. Leoncini and A. D. Verga, "A dynamical approach to the microcanonical ensemble," cond-mat/0012215
102. Stephan Mertens, "Computational complexity for physicists," cond-mat/0012185
103. I. P. Omelyan, I. M. Mryglod, and R. Folk, "Molecular dynamics simulations of spin and pure liquids with preserving all the conservation laws," cond-mat/0012182
104. Wei-Guo Yin and Ruibao Tao, "Rapid algorithm for identifying backbones in the two-dimensional percolation model," cond-mat/0012169
105. A. Pelissetto and E. Vicari, "Critical phenomena and renormalization-group theory," cond-mat/0012164
106. Francois Lequeux and Armand Ajdari, "Averaging rheological quantities in descriptions of soft glassy materials," cond-mat/0012134
107. P. Tartaglia, F. Sciortino, and A. Rinaldi, "Dynamics in a supercooled molecular liquid: Theory and Simulations," cond-mat/0012415
108. F. Bardou, "Cooling gases with Levy flights: using the generalized central limit theorem in physics," (1999) physics/0012049
109. F. Affouard and M. Descamps, "Is there something of the MCT in orientationally disordered crystals?," cond-mat/0012388
110. Juan J. Alonso and Miguel A. Munoz, "Temporally disordered Ising models," Phys. Rev. E cond-mat/0012359
111. Ajay K. Sood, Pinaki Chaudhuri, and H. R. Krishnamurthy, "Phase behaviour of a hard sphere colloidal system in the presence of an external laser field," cond-mat/0012338
112. Yukito Iba, "Extended Ensemble Monte Carlo," cond-mat/0012323
113. Ying-Jer Kao, G. S. Grest, K. Levin, J. Brooke, and T.F. Rosenbaum, G. Aeppli, "History Dependent Phenomena in the Transverse Ising Ferroglass: the Free Energy Landscape," cond-mat/0012298
114. G. Ruocco, M. Sampoli, and S. Mossa, "Molecular dynamics simulation of the fragile glass former ortho-terphenyl: a flexible molecule model. II. Collective dynamics," cond-mat/0012474
115. Biman Bagchi, Arnab Mukherjee, and Goundla Srinivas, "Re-entrant behavior of relaxation time with viscosity at varying composition in binary mixtures," cond-mat/0012469
116. H. J. Herrmann, R. Cafiero, and S. Luding, "Rotationally driven gas of inelastic rough spheres," cond-mat/0012427
117. D. Thirumalai and D. K. Klimov, "Introducing Protein Folding Using Simple Models," cond-mat/0101048
118. A. D. Chepelianskii and D. L. Shepelyansky, "Dynamical turbulent flow on the Galton board with friction," cond-mat/0101006
119. R. Folk, A. Bakai, A. Ciach, A. Chalyi, Yu. Holovatch, M. Kozlovskii, M. Schick, W. Schršer, G. Stell, and I. Yukhnovskii, "Materials of the round table ``Phase transitions and critical phenomena: past, present, and future," cond-mat/0012506
120. Paulo Murilo Castro de Oliveira, "Broad Histogram: Tests for a Simple and Efficient Microcanonical Simulator," Brazilian Journal of Physics 30, 766 (2000) cond-mat/0101171
121. J. Houdayer, "A Cluster Monte Carlo Algorithm for 2-Dimensional Spin Glasses," cond-mat/0101116
122. Srikanth Sastry, "Inherent Structure Approach to the Study of Glass Forming Liquids," cond-mat/0101079
123. Xiaoyu Xia and Peter G. Wolynes, "Diffusion and the Mesoscopic Hydrodynamics of Supercooled Liquids," cond-mat/0101053
124. M. E. J. Newman and R. M. Ziff, "A fast Monte Carlo algorithm for site or bond percolation," cond-mat/0101295
125. Giorgio Parisi, "Planck's Legacy to Statistical Mechanics," cond-mat/0101293 Historical talk given at the Accademia dei Lincei
126. G.Boffetta, M. Cencini, M. Falcioni, and A. Vulpiani, "Predictability: a way to characterize Complexity," Physics Reports nlin.CD/0101029
127. Fabio Cecconi, Cristian Micheletti, Paolo Carloni, and Amos Maritan, "Molecular Dynamics Studies on HIV-1 Protease: Drug Resistance and Folding Pathways," cond-mat/0101229
128. D. C. Rapaport, "A new mechanism for granular segregation," cond-mat/0101176
129. Robert M. Ziff and Christian D. Lorenz, "Excess number of percolation clusters on the surface of a sphere," cond-mat/0102008
130. Ulrich K. Roessler, "Ising Dipoles on the Triangular Lattice," cond-mat/0101412
131. Barbara Drossel, "Biological Evolution and Statistical Physics," Adv. Phys. cond-mat/0101409
132. Julien Barre, Thierry Dauxois, and Stefano Ruffo, "Clustering in a model with repulsive long-range interactions," cond-mat/0101403
133. Alain Barrat and Ludovic Berthier, "Real space application of the mean-field description of spin glass dynamics," cond-mat/0102151
134. J. Borg, "New Monte Carlo Iteration Method for Generalized Ensembles," cond-mat/0102140
135. Felix Ritort and Andrea Crisanti, "A real-space description of the glass transition based on heterogeneities and entropy barriers," cond-mat/0102104
136. James P. Sethna, Karin A. Dahmen, and Christopher R. Myers, "Crackling Noise," cond-mat/0102091
137. James W. Dufty and Andres Santos, "Critical Behavior of a Heavy Particle in a Granular Fluid," cond-mat/0102087
138. Vladimir Privman, "Size Distribution in Growth of Fine Particles," cond-mat/0102079
139. L. S. Schulman and B. Gaveau, "Coarse grains: the emergence of space and order," cond-mat/0102071
140. Peter G. Wolynes, Joerg Schmalian, and Harry Westfahl, "Self generated randomness, defect wandering and viscous flow in stripe glasses," cond-mat/0102285
141. Indrani Bose and Indranath Chaudhuri, "Bacterial evolution and the Bak-Sneppen model," cond-mat/0102273
142. Makoto Hiramoto, "Thermodynamic potential of interacting Bose-Einstein gas confined in harmonic potential," cond-mat/0102269
143. F. Ritort, F. Ricci-Tersenghi, and M. Picco, "Aging effects and dynamic scaling in the 3d Edwards-Anderson spin glasses: a comparison with experiments," cond-mat/0102248
144. A. Awazu, "Liquid-Solid Phase Transition and the Change of the Frictional Force of the System with Two particles in a Box," cond-mat/0102246
145. Yu-Gang Ma, "Application of Information Theory in Nuclear Liquid Gas Phase Transition," Phys. Rev. Lett. 83, 3617-3620 (1999) nucl-th/0102019
146. A. A. Louis, "Effective potentials for polymers and colloids: Beyond the van der Waals picture of fluids?," cond-mat/0102220
147. Abhishek Dhar, "Heat conduction in a one-dimensional gas of elastically colliding particles of unequal masses," cond-mat/0102208
148. D. Y. Sun and X. G. Gong, "A new constant-pressure molecular dynamics method for finite system," cond-mat/0102184
149. J. Rembielinski, K. A. Smolinski, and G. Duniec, "Thermodynamics and Preferred Frame," cond-mat/0102170
150. A. Schadschneider, C. Burstedde, K. Klauck, and J. Zittartz, "Simulation of pedestrian dynamics using a 2-dimensional cellular automaton," Physica A cond-mat/0102397
151. R. M. L. Evans and C. B. Holmes, "Diffusive growth of polydisperse hard-sphere crystals," cond-mat/010238
152. J. M. Yanez, M. I. Molina, and D. C. Mattis, "From Disordered Crystal to Glass: Exact Theory," cond-mat/0102309
153. Daniel C. Hong and Joseph A. Both, "Density Functional Theory of Hard Sphere Condensation Under Gravity," cond-mat/0103041
154. M. Mezard, F. Ricci-Tersenghi, S. Franz, M. Weigt, and R. Zecchina, "A ferromagnet with a glass transition," cond-mat/0103026
155. S. Luding, "From DEM simulations towards a continuum theory of granular matter," cond-mat/0103016
156. S. Luding and O. Strauss, "The equation of state for almost elastic, smooth, polydisperse granular gases for arbitrary density," cond-mat/0103015
157. S. Luding, "Global Equation of State of two-dimensional hard sphere systems," cond-mat/0103014
158. Theo M. Nieuwenhuizen, "Formulation of thermodynamics for the glassy state: configurational energy as a modest source of energy," cond-mat/0102528
159. A. Slepoy, R. R. P. Singh, F. Pazmandi, R. N. Kulkarni, and D. L. Cox, "On the statistical mechanics of prion diseases," cond-mat/0102478
160. Pep Espanol, "Thermohydrodynamics for a van der Waals fluid," cond-mat/0102430
161. P. Ziherl and Randall D. Kamien, "Maximizing Entropy by Minimizing Area: Towards a New Principle of Self-Organization," cond-mat/0103171
162. Shankar P. Das and Sudha Srivastava, "Fragility and Boson Peak formation in a Supercooled Liquid," cond-mat/0103158
163. Theo M. Nieuwenhuizen and Luca Leuzzi, "Inherent Structures in models for fragile and strong glass," cond-mat/0103147
164. Nikolay Prokof'ev and Boris Svistunov, "Worm algorithms for classical statistical models," cond-mat/0103146
165. Shankar P. Das and Sudha Srivastava, "Temperature dependence of the Power law exponent of relaxation in a supercooled Liquid," cond-mat/0103123
166. M. Dzugutov, "Super-Arrhenius slowing down in the metastable liquid of hard spheres," cond-mat/0103117
167. M. H. Ernst, J. Wakou, and R. Brito, "Towards a Landau-Ginzburg-type Theory for Granular Fluids," cond-mat/0103086
168. A. J. Guttmann, W. P. Orrick, B. Nickel, and J. H. H. Perk, "The susceptibility of the square lattice Ising model: New developments," cond-mat/0103074
169. Th. M. Nieuwenhuizen, "Thermodynamics Far from Equilibrium: from Glasses to Black Holes," cond-mat/0103063
170. Wolfhard Janke and Ralph Kenna, "Analysis of the Density of Partition Function Zeroes - A Measure for Phase Transition Strength," cond-mat/010333
171. Wolfhard Janke and Ralph Kenna, "Exact Finite-Size Scaling and Corrections to Scaling in the Ising Model with Brascamp-Kunz Boundary Conditions," cond-mat/0103332
172. J. J. Brey and A. Prados, "Glass-like dynamical behavior in hierarchical models submitted to continuous cooling and heating processes," cond-mat/0103325
173. Jian-Sheng Wang, "Efficient Monte Carlo Simulation Methods in Statistical Physics," cond-mat/0103318
174. J. R. Morris and K. M. Ho, "Molecular dynamic simulation of a homogeneous bcc -> hcp transition," cond-mat/0103278
175. M. Lawrence Glasser, "Second virial coefficient for a d-dimensional Lennard-Jones (2n-n) system," cond-mat/0103225
176. G. Parisi, J. J. Arenzon, F. Ricci-Tersenghi, and D. A. Stariolo, "Reply to Comment on "Two time scales and violation of the Fluctuation-Dissipation Theorem in a finite dimensional model for structural glasses," cond-mat/0103450
177. A. Coniglio and A. de Candia, "Comment on ``Two Time Scales and Violation of the Fluctuation-Dissipation Theorem in a Finite Dimensional Model for Structural Glasses," cond-mat/0103444
178. D. Lacoste and T. C. Lubensky, "Phase transitions in a ferrofluid at magnetic field induced microphase separation," cond-mat/0103429
179. Shankar P. Das and Upendra Harbola, "Model for Glass Transition in a Binary fluid from a Mode Coupling approach," cond-mat/0103420
180. M. Aichele and J. Baschnagel, "Glassy Dynamics of Simulated Polymer Melts: Coherent Scattering and Van Hove Correlation Functions Part I: Dynamics in the beta-Relaxation Regime," cond-mat/0103413
181. M. Aichele and J. Baschnagel, "Glassy Dynamics of Simulated Polymer Melts: Coherent Scattering and Van Hove Functions Part II: Dynamics in the alpha-Relaxation Regime," cond-mat/0103416
182. Shankar P. Das and Upendra Harbola, "Structural Relaxation and Frequency Dependent Specific Heat in a Supercooled Liquid," cond-mat/0103404
183. Shankar P. Das and Sudha Srivastava, "Transport coefficients at Metastable Densities from models of Generalized Hydrodynamics," cond-mat/0103403
184. C. M. Newman and D. L. Stein, "Are There Incongruent Ground States in 2D Edwards-Anderson Spin Glasses?," cond-mat/0103395
185. Frank Schweitzer, Werner Ebeling, and Benno Tilch, "Statistical Mechanics of Canonical-Dissipative Systems and Applications to Swarm Dynamics," cond-mat/0103360
186. Vishal Mehra and Jayme De Luca, "Perfectly Translating Lattices on a Cylinder," cond-mat/0103353
187. Ronald Blaak and Jose A. Cuesta, "Continuous phase transition in polydisperse hard-sphere mixture," cond-mat/0103605
188. Barry M. McCoy, "Do hard spheres have natural boundaries?," cond-mat/0103556
189. I. O. Vakarchuk and A. A. Rovenchak, "Thermodynamics of the Bose-System with a Small Number of Particles," cond-mat/0104092
190. Mark O. Robbins and Gang He, "Simulations of the Static Friction Due to Adsorbed Molecules," cond-mat/0104031
191. Yasuaki Hiwatari, Masaharu Isobe, and Hisashi Shimizu, "A Multicanonical Molecular Dynamics Study on a Simple Bead-Spring Model for Protein Folding," cond-mat/0104016
192. K. P. N. Murthy, "Monte Carlo: Basics," cond-mat/0104215
193. M. Parrinello and D. Passerone, "Action-derived molecular dynamics in the study of rare events," cond-mat/0104204 least action consider for book
194. Tibor Antal, Michel Droz, Adam Lipowski, and Geza Odor, "On the critical behavior of a lattice prey-predator model," cond-mat/0104197
195. A. Alan Middleton, "Critical slowing down in polynomial time algorithms," cond-mat/0104185
196. Jose M. Soler, "Efficient index handling of multidimensional periodic boundary conditions," cond-mat/0104182
197. K. P. N. Murthy and V. Sridhar, "Monte Carlo for Statistical Physics: An Elementary Introduction," cond-mat/0104167
198. Anirban Chakraborti, Pratip Bhattacharyya, and Bikas K. Chakrabarti, "Distances between random points in a d-dimensional hypercube and the travelling salesman problem," cond-mat/0104139
199. G. Ruocco, F. Sette, G. Monaco, M. Sampoli, and S. Mossa, "Molecular dynamics simulation study of the high frequency sound waves in the fragile glass former ortho-terphenyl," cond-mat/0104129
200. Kim Christensen, Simone A. di Collobiano, Matt Hall, and Henrik J. Jensen, "Tangled Nature: a model of evolutionary ecology," cond-mat/0104116
201. Marco Pettini, Roberto Franzosi, and Lionel Spinelli, "Topology and Phase Transitions: towards a proper mathematical definition of finite N transitions," cond-mat/0104110
202. G. Tarjus, P. Viot, and M. Grousson, "A Monte Carlo study of the three-dimensional Coulomb frustrated Ising ferromagnet," cond-mat/0104364
203. L. Samaj, "Universal Finite-Size Effects in the Two-Dimensional Asymmetric Coulomb Gas on a Sphere," cond-mat/0104363
204. Peter Borrmann, Oliver Muelken, and Heinrich Stamerjohanns, "The Origins of Phase Transitions in Small Systems," cond-mat/0104307
205. Jean-Philippe Bouchaud, Bernd Rinn, and Philipp Maass, "Hopping in the Glass Configuration Space: Subaging and Generalized Scaling Laws," cond-mat/0104304
206. H.-J. Schmidt and J. Schnack, "Partition functions and symmetric polynomials," cond-mat/0104293
207. E. Rericha, C. Bizon, M. Shattuck, and H.L. Swinney, "Shocks in supersonic sand," cond-mat/0104474
208. Ronald Dickman and Daniel ben-Avraham, "Continuously-variable survival exponent for random walks with movable partial reflectors," cond-mat/0104470
209. Pedro L. Garrido, Pablo I. Hurtado, and Bjoern Nadrowski, "A simple one-dimensional model of heat conduction which obeys Fourier's law," cond-mat/0104453
210. R. Rajesh and Satya N. Majumdar, "Exact Tagged Particle Correlations in the Random Average Process," cond-mat/0104430
211. O. C. Martin, R. Zecchina, and R. Monasson, "Statistical mechanics methods and phase transitions in optimization problems," cond-mat/0104428
212. Jian-Sheng Wang and Robert H. Swendsen, "Transition Matrix Monte Carlo Method," cond-mat/0104418
213. Walter Kob, Giorgio Parisi, Kurt Binder, and Peter Scheidler, "Growing length scales in a supercooled liquid close to an interface," cond-mat/0104382
214. S. Redner, V. Spirin, and P. L. Krapivsky, "Freezing in Ising Ferromagnets," cond-mat/0105037 project
215. T. M. Sanders, "Semiclassical Mechanics of Rotons," cond-mat/0105017
216. Giorgio Parisi, Andrea Cavagna, and Irene Giardina, "Role of saddles in mean-field dynamics above the glass transition," cond-mat/0104537
217. A.R. Lima and M. Argollo de Menezes, "Using Entropy-Based Methods to Study General Constrained Parameter Optimization Problems," cond-mat/0104527
218. D. Frenkel and I. Pagonabarraga, "Dissipative particle dynamics for interacting systems," cond-mat/0105075
219. A. J. Bray and S. J. O'Donoghue, "Persistence in the One-Dimensional A+B -> 0 Reaction-Diffusion Model," cond-mat/0105074
220. T. C. Halsey, G. S. Grest, L. E. Silbert, D. Ertas, D. Levine, and S. J. Plimpton, "Granular flow down an inclined plane: Bagnold scaling and rheology," cond-mat/0105071
221. Daan Frenkel and Sander Pronk, "Point Defects in Hard Sphere Crystals," cond-mat/0105060
222. J. Arnaud, L. Chusseau, and F. Philippe, "Carnot cycle for an oscillator," physics/0105048
223. Sung Joon Moon, M. D. Shattuck, and J. B. Swift, "Velocity Distributions and Correlations in Homogeneously Heated Granular Media," cond-mat/0105322
224. D. H. E. Gross, "Straight way to Thermo-Statistics and Phase Transitions, Second Law of Thermodynamics, but without Thermodynamic Limit," cond-mat/0105313
225. Peter G. Wolynes, Joerg Schmalian, Sangwook Wu, and Harry Westfahl Jr., "Theory of Microemulsion Glasses," cond-mat/0105308
226. A. Baldassarri, U. Marini Bettolo Marconi, and A. Puglisi, "Cooling of a lattice granular fluid as an ordering process," cond-mat/0105299
227. G. T. Barkema, M. A. Stijnman, and R. H. Bisseling, "Partitioning 3D space for parallel many-particle simulations," cond-mat/0105272
228. Aleksey D. Drozdov and Joachim Kaschta, "The viscoelastic and anelastic responses of amorphous polymers in the vicinity of the glass transition temperature," cond-mat/0105251
229. Sheldon Goldstein, "Boltzmann's Approach to Statistical Mechanics," cond-mat/0105242 To appear in Chance in Physics: Foundations and Perspectives
230. J. K. Krźger, J. Petersson, J. Baller, and M. Henkel, "From the Dynamically Nanostructured Liquid to the Glassy State: A Phenomenological Approach," cond-mat/0105405
231. A. Latz, T. Theenhaus, R. Schilling, and M. Letz, "Microscopic dynamics of molecular liquids and glasses: Role of orientations and translation-rotation coupling," cond-mat/0105393
232. A. Crisanti, F. Ritort, E. Marinari, and A. Rocco, "A New Method to Compute the Configurational Entropy in Spin Glasses," cond-mat/0105391
233. S. Ruffo and S. Lepri, "Finite-size effects on the Hamiltonian dynamics of the XY-model," cond-mat/0105609
234. A. Lipowski and D.Johnston, "Crystallization of a supercooled liquid and of a glass - Ising model approach," cond-mat/0105602
235. Z. Racz, M. Droz, T. Antal, and G. Gyorgyi, "1/f Noise and Extreme Value Statistics," cond-mat/0105599
236. Marek Gutowski, "Levy flights as an underlying mechanism for global optimization algorithms," math-ph/0106003
237. Axel Gelfert and Wolfgang Nolting, "The absence of finite-temperature phase transitions in low-dimensional many-body models: a survey and new results," cond-mat/0106090
238. A. Latz, "Universal properties of aging in structural glass," cond-mat/0106086
239. L. Angelani, G. Ruocco, R. Di Leonardo, A. Scala, and F. Sciortino, "A stroll in the energy landscape," cond-mat/0106065
240. Sandra Chapman, George Rowlands, and Nicholas Watkins, "Extremum Statistics and Signatures of Long Range Correlations," cond-mat/0106015
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