Publications of Irwin Oppenheim - The Journal of Physical Chemistry B

Nov 10, 2005 - Publications of Irwin Oppenheim. J. Phys. Chem. B , 2005, 109 (45), pp 21228–21234. DOI: 10.1021/jp058251n. Publication Date (Web): ...
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J. Phys. Chem. B 2005, 109, 21228-21234

Publications of Irwin Oppenheim 1. Zwanzig, Robert W.; Kirkwood, John G.; Stripp, Kenneth F.; and Oppenheim, Irwin. “Radial Distribution Functions and the Equation of State of Monatomic Fluids.” J. Chem. Phys. 1953, 21, 1268-1271. 2. Zwanzig, Robert W.; Kirkwood, John G.; Stripp, Kenneth F.; and Oppenheim, Irwin. “The Statistical Mechanical Theory of Transport Processes. VI. A Calculation of the Coefficients of Shear and Bulk Viscosity of Liquids.” J. Chem. Phys. 1953, 21, 2050-2055. 3. Zwanzig, Robert W.; Kirkwood, John G.; Oppenheim, Irwin; and Alder, Berni J. “Statistical Mechanical Theory of Transport Processes. VII. The Coefficient of Thermal Conductivity of Monatomic Liquids.” J. Chem. Phys. 1954, 22, 783-790. 4. Zwanzig, Robert W.; Kirkwood, John G.; Stripp, Kenneth F.; and Oppenheim, Irwin. “Errata: Radial Distribution Functions and the Equation of State of Monatomic Fluids.” J. Chem. Phys. 1954, 22, 1625. 5. Hayward, E., and Oppenheim, I. “Book Review: Progress in Nuclear Physics, Vol. 3.” Phys. Today VII, 1954, 11, 18. 6. Oppenheim, Irwin. “Book Review: Quantum Theory of Fields, Friedricks.” Phys. Today VII 1954, 7, 23. 7. Nelms, Ann T., and Oppenheim, Irwin. “Data on the Atomic Form Factor: Computation and Survey.” J. Natl. Bur. Standards 1955, 55, 53-62. 8. Oppenheim, I., and Mazur, P. “Density Expansions of Distribution Functions, I. Virial Expansion for Finite Closed Systems; Canonical Ensemble.” Physica 1957, 23, 197-215. 9. Oppenheim, I., and Mazur, P. “Density Expansions of Distribution Functions. II. Density Expansions in the Grand Canonical Ensemble.” Physica 1957, 23, 216224. 10. Oppenheim, Irwin, and Ross, John. “Temperature Dependence of Distribution Functions in Quantum Statistical Mechanics.” Phys. ReV. 1957, 107, 28-32. 11. Bloom, M., and Oppenheim, I. “Use of Magnetic Resonance in Determining Quantum Mechanical Effective Temperatures.” Physica 1957, 23, 237. 12. Oppenheim, Irwin. “Statistical Mechanical Theory of Transport Properties.” Proc. Midwest Conf. Theor. Phys. 1958, 142-147. 13. Oppenheim, Irwin. “Quantum Effects on the Surface Tension of Simple Liquids.” NuoVo Cimento, Series 9X Supplemento, No. 1180. 1958. 14. Oppenheim, Irwin, and Bloom, Myer. “Nuclear Spin Relaxation in Low Temperature Liquids.” Can. J. Phys. 1959, 37, 1324. 15. Lifson, Shneior, and Oppenheim, Irwin. “Neighbor Interactions and Internal Rotations in Polymer Molecules. IV. Solvent Effect on Internal Rotations.” J. Chem. Phys. 1960, 33, 100-115. 16. Kirkwood, J. G., and Oppenheim, Irwin. Chemical Thermodynamics. McGraw-Hill: New York, 1961. 17. Crawford, B., and Oppenheim, Irwin. “The Second Law of Thermodynamics.” J. Chem. Phys. 1961, 34, 35.

18. Friedman, A. S., and Oppenheim, Irwin. “Quantum Statistical Mechanics of Isotope Effects.” J. Chem. Phys. 1961, 35, 35. 19. Oppenheim, Irwin. “Law of Corresponding States.” In Encyclopaedic Dictionary of Physics; Pergamon Press: New York, 1961; Vol. 2, p 119. 20. Bloom, M., and Oppenheim, I. “Nuclear Spin Relaxation in Gases and Liquids. I. Correlation Functions.” Can. J. Phys. 1961, 39, 845. 21. Mori, H.; Oppenheim, I.; and Ross, J. “Part C. Some Topics in Quantum Statistics. The Wigner Function and Transport Theory.” In Studies in Statistical Mechanics, Volume I, De Boer, J., and Uhlenbeck, G. E., Eds.; North-Holland Publishing Company: Amersterdam, 1962; pp 217-298. 22. Oppenheim, Irwin. “Computation of Oscillator Strength Using Moment Techniques.” International Symposium on Molecular Structure and Spectroscopy, 1962, Tokyo. 23. Oppenheim, Irwin. “Comments on the paper by P. Glansdotff entitled ‘Formulation des Equations de L’Hydrodynamique des Gaz Ionises.” AGARD Symposium on Combustion; Pergamon Press: New York, 1963. 24. Oppenheim, Irwin, and Hafemann, Dennis R. “Thermodynamic Properties of a Monatomic Hydrogen gas at High Temperatures.” J. Chem. Phys. 1963, 39, 101109. 25. Bloom, Myer, and Oppenheim, Irwin. “Nuclear Spin Relaxation in Gases and Liquids. II. Molecular Hydrogen.” Can. J. Phys. 1963, 41, 1580-1590. 26. Oppenheim, Irwin. “Transport Equations for the Upper Atmosphere.” J. Geophys. Res. 1963, 68, 5947-5963. 27. Oppenheim, Irwin. “Approximate Quantum-Mechanical Law of Corresponding States.” J. Chem. Phys. 1963, 39, 2771-2772. 28. Andersen, Hans C., and Oppenheim, Irwin. “Modified Langevin Equation for the Description of Brownian Motion.” J. Math. Phys. 1963, 4, 1367-1372. 29. Oppenheim, I.; Bloom, M.; and Torrey, H. C. “Nuclear Spin Relaxation in Gases and Liquids. III. MomentumDependent Interactions.” Can. J. Phys. 1964, 42, 7083. 30. Andersen, H. C.; Oppenheim, I.; Shuler, Kurt E.; and Weiss, George H. “Exact Conditions for the Preservation of a Canonical Distribution in Markovian Relaxation Processes.” J. Math. Phys. 1964, 5, 522-536. 31. Oppenheim, I., and Van Kampen, N. G. “Field Correlation Functions in a Plasma.” Phys. Fluids 1964, 7, 813815. 32. Kawasaki, K., and Oppenheim, I. “Triple Collision Operators in the Transport Theory of Dense Gases.” Phys. Lett. 1964, 11, 124-126. 33. Oppenheim, Irwin. “Single Electrode Potentials.” J. Phys. Chem. 1964, 68, 2959-2961. 34. Oppenheim, I. “Statistical MechanicssA Selected Review.” Ann. ReV. Phys. Chem. 1964, 15, 395-420. 35. Oppenheim, Irwin, and Mazur, P. “Brownian Motion in Systems of Finite Size.” Physica 1964, 30, 1833-1845.

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J. Phys. Chem. B, Vol. 109, No. 45, 2005 21229 36. Andersen, Hans C.; Oppenheim, Irwin; Shuler, Kurt E.; and Weiss, George H. “Nonequilibrium Thermodynamics of Canonically Invariant Relaxation Processes.” J. Chem. Phys. 1964, 41, 3012-3019. 37. Kawasaki, Kyozi, and Oppenheim, Irwin. “CorrelationFunction Method for the Transport Coefficients of Dense Gases.I. First Density Correction to the Shear Viscosity.” Phys. ReV. 1964, 136, A1519-A1534. 38. Oppenheim, Irwin, and Shuler, Kurt E. “Master Equations and Markov Processes.” Phys. ReV. 1965, 138, B1007B1011. 39. Kawasaki, Kyozi, and Oppenheim, Irwin. “Correlation Function Method for the Transport Coefficients of Dense Gases. II. First Density Correction to the Shear Viscosity for Systems with Attractive Forces.” Phys. ReV. 1965, 139, A649-A663. 40. Bloom, M.; Oppenheim, I.; Lipsicas, M.; Wade, C. G.; and Yarnell, C. F. “Nuclear Spin Relaxation in Gases and Liquids. IV. Interpretation of Experiments in Gases.” J. Chem. Phys. 1965, 43, 1036-1047. 41. Kawasaki, K., and Oppenheim, I. “Logarithmic Term in the Density Expansion of Transport Coefficients.” Phys. ReV. 1965, 139, A1763-A1769. 42. Felderhof, B. U., and Oppenheim, I. “Correlation Functions and Hydrodynamic Equations.” Physica 1965, 31, 1441-1465. 43. Mason, E. A.; Amdur, I.; and Oppenheim, I. “Differences in the Spherical Intermolecular Potentials of Hydrogen and Deuterium.” J. Chem. Phys. 1965, 43, 4458-4463. 44. Oppenheim, Irwin, Ed.; John Gamble Kirkwood Collected Works; Gordon and Breach: New York, 1965. 45. Deutch, J. M.; Kinsey, J. L.; and Oppenheim, I. “Quantum Statistical Mechanics of Isotope Effects. II. The Surface Tension and Internal Energy.” J. Chem. Phys. 1966, 44, 2270-2276. 46. Deutch, J. M., and Oppenheim, I. “Nuclear Spin Relaxation in Gases and Liquids. V. Liquid Hydrogen.” J. Chem. Phys. 1966, 44, 2843-2849. 47. Kivelson, Daniel, and Oppenheim, Irwin. “Work in Irreversible Expansions.” J. Chem. Ed., 1966, 43, 525. 48. Deutch, John M., and Oppenheim, Irwin. “Nuclear Relaxation in Hydrogen Gas and Liquid.” AdV. Magn. Res. 1966, 2, 225-262. 49. Chandler, D., and Oppenheim, I. “Some Comments on the Third and Second Laws of Thermodynamics.” J. Chem. Ed. 1966, 43, 525-527. 50. Oppenheim, Irwin, and Shuler, Kurt E. “On the Decay of Initial Correlations in Stochastic Processes.” J. Chem. Phys. 1967, 46, 4100-4111. 51. Kawasaki, K., and Oppenheim, I. “Logarithmic Terms in the Density Expansions of Transport Coefficients.” In Statistical Mechanics Foundations and Applications; Benjamin, W. A., Ed.; 1967, 313-329. 52. Bloom, Myer, and Oppenheim, Irwin. “10. Intermolecular Forces Determined by Nuclear Magnetic Resonance.” In Intermolecular Forces; Joseph O. Hirschfelder, Ed.; John Wiley & Sons, Inc.: New York, 1967; pp 549599. 53. Oppenheim, Irwin; Shuler, Kurt E.; and Weiss, George H. “Stochastic Theory of Multistate Relaxation Processes.” AdV. Mol. Relaxation Processes, 1967-1968, 1, 13-68.

54. Hynes, James T.; Deutch, J. M.; Wang, Chin Hsien; and Oppenheim, Irwin. “Quantum Corrections to Time Correlation Functions.” J. Chem. Phys. 1968, 48, 30853091. 55. Deutch, J. M., and Oppenheim, Irwin. “Time Correlation Functions in Nuclear Magnetic Relaxation.” AdV. Magn. Res. 1968, 3, 43-77. 56. Oppenheim, I., and Waugh, J. S. “Nuclear Relaxation in Simple Liquids.” In Simple Dense Fluids; Academic Press: New York, 1968; 203-214. 57. Hynes, James T.; Deutch, J. M.; Wang, Chin Hsien; and Oppenheim, Irwin. “Quantum Corrections to Time Correlation Functions.” J. Chem. Phys. 1968, 48, 30853091. 58. Andersen, Hans C., and Oppenheim, Irwin. “Derivation of the Boltzmann Equation for a Dilute, QuantumMechanical, Slightly Inhomogeneous Gas.” Ann. Phys. 1968, 48, 1-42. 59. Chandler, David, and Oppenheim, Irwin. “Fluctuation Theory and Critical Phenomenon.” J. Chem. Phys. 1968, 49, 2121-2127. 60. Kivelson, D.; Kivelson, M. G.; and Oppenheim, I. “Correlation Times for Molecular Angular Momentum in Liquids.” Proc. Int. Conf. Statistical Mech., 1968, Tokyo. 61. Mazur, P., and Oppenheim, I. “Molecular Derivation of the Langevin Equation.” J. Phys. Soc. Japan 1969, 26, 35-36. 62. Oppenheim, I. “Chapter 1. Introduction to the MolecularTransport Equations of Dilute Gases.” In Gases and Plasmas; A. R. Hochstim, Ed.; Academic Press, New York, 1969; pp 1-23. 63. Oppenheim, Irwin; Shuler, Kurt E.; and Weiss, George H. “Decay of Correlations. II. Relaxation of Momentum Correlations and Momentum Distributions in Harmonic Oscillator Chains.” J. Chem. Phys. 1969, 50, 36623669. 64. Wang, Chin Hsien, and Oppenheim, Irwin. “Density Expansion of Frequency Dependent Transport Coefficients: Application to the Spin-Rotational Interaction and Other Relaxation Processes.” J. Chem. Phys. 1969, 51, 2745-2753. 65. Oppenheim, Irwin. “Probabilistic and Dynamic Approaches to the Theory of Stochastic Processes.” In Stochastic Processes in Chemical Physics; K. E. Shuler, Ed.; John Wiley & Sons., Inc.: New York, 1969; pp 1-10. 66. Shuler, K. E.; Weiss, G. H.; and Oppenheim, I. “Stochastic and Deterministic Formulation of Chemical Rate Equations.” J. Chem. Phys. 1969, 50, 460-466. 67. Oppenheim, I., and Terwiel. “On Product Expansions of Partition Functions.” Physica 1969, 46, 438-450. 68. Kivelson, D.; Kivelson, M. G.; and Oppenheim, I. “Rotational Relaxation in Fluids.” J. Chem. Phys. 1970, 52, 1810-1821. 69. Andersen, Hans C., and Oppenheim, Irwin. “Derivation of the Waldmann-Snider Transport Equation for Molecular Gases.” Ann. Phys. 1970, 57, 91-114. 70. Bedeaux, Dick; Shuler, Kurt E.; and Oppenheim, Irwin. “Decay of Correlations. III. Relaxation of Spin Correlations and Distribution Functions in the One-Dimensional Ising Lattice.” J. Stat. Phys. 1970, 2, 1-19.

21230 J. Phys. Chem. B, Vol. 109, No. 45, 2005 71. Hamer, Norman, and Oppenheim, Irwin. “CorrelationFunction Method for the Transport Coefficients of Dense Gases.III. Bulk Viscosity.” Phys. ReV. A 1970, 2, 21532157. 72. Mazur, P., and Oppenheim, I. “Molecular Theory of Brownian Motion.” Physica 1970, 50, 241-258. 73. Albers, J.; Deutch, J. M.; and Oppenheim, Irwin. “Generalized Langevin Equations.” J. Chem. Phys. 1971, 54, 3541-3546. 74. Deutch, J. M., and Oppenheim, Irwin. “Molecular Theory of Brownian Motion for Several Particles.” J. Chem. Phys. 1971, 54, 3547-3555. 75. Oppenheim, Irwin. “Linear Response Theory and Macroscopic Measurements.” Ber. Bunsenge. Phys. Chem. 1971, 75, 385-388. 76. Selwyn, Ph. A., and Oppenheim, I. “Generalized Hydrodynamics for Simple Fluids.” Physica 1971, 54, 161194. 77. Selwyn, Ph. A., and Oppenheim, I. “Generalized Hydrodynamics for Dilute Gases: The Application to LightScattering Experiments.” Physica 1971, 54, 195-222. 78. Desai, R., and Oppenheim, I. “Momentum Relaxation in Dilute and Moderately Dense Gases.” Physica 1971, 51, 165-185. 79. Kim, S., and Oppenheim, I. “Molecular Theory of Brownian Motion of a Rigid Rotor.” Physica 1971, 54, 593603. 80. Bedeaux, Dick; Shuler, Kurt E.; and Oppenheim, Irwin. “Decay of Correlations.IV. Necessary and Sufficient Conditions for a Rapid Decay of Correlations.” J. Stat. Phys. 1971, 3, 365-379. 81. Albers, J., and Oppenheim, I. “Density Expansion of Distribution Functions. III. Quantum and Classical Binary Molecular Mixtures.” Physica 1971, 56, 237252. 82. Shuler, K. E.; Weiss, G. H.; and Oppenheim, I. “Stochastic Methods: Master Equation and Fokker-Planck Equation.” In Problems in Thermodynamics and Statistical Physics, Lansberg, P. T., Ed.; Pion Limited: London, 1971; pp 511-530. 83. Davis, Paul K., and Oppenheim, Irwin. “Vibrational Relaxation in GasessSome Constraints on the Use of Master Equations.” J. Chem. Phys. 1972, 56, 86-94. 84. Albers, J., and Oppenheim, I. “Logarithmic Term in the Density Expansion of Quantum Transport Coefficients and Other Response Functions.” Physica 1972, 59, 187205. 85. Kim, S., and Oppenheim, I. “Molecular Theory of Brownian Motion in External Fields.” Physica 1972, 57, 469482. 86. Oppenheim, Irwin. “Linear Response Theory and Spin Relaxation.” In Electron Spin Relaxation in Liquids; Muus, L. T., and Atkins, P. W., Eds.; Plenum Press: New York, 1972; pp 109-126. 87. Gershon, N.D., and Oppenheim, I. “Depolarized Light Scattering from Fluids.” Phys. Lett. 1972, 38A, 139140. 88. Albers, J., and Oppenheim, I. “Density Expansion of Quantum Transport Coefficients and Other Response Functions.” Physica 1972, 59, 161-186. 89. Davis, Paul K., and Oppenheim, Irwin. “Vibrational Relaxation in Liquids.” J. Chem. Phys. 1972, 57, 505517.

90. van Kampen, N. G., and Oppenheim, Irwin. “Expansion of the Master Equation for One-Dimensional Random Walks with Boundary.” J. Math. Phys. 1972, 13, 842849. 91. Weinberg, M., and Oppenheim, I. “Light Scattering from a Fluid with Internal Degrees of Freedom.” Physica 1972, 61, 1-22. 92. Gershon, N. D., and Oppenheim, I. “Hydrodynamic Equations for Fluids of Nonspherical Molecules.” Physica 1972, 62, 198-208. 93. Keyes, T., and Oppenheim, Irwin. “Bilinear Contributions to Equilibrium Correlation Functions.” Phys. ReV. A 1973, 7, 1384-1395. 94. Gershon, N. D., and Oppenheim, I. “Low-Frequency Depolarized Light Scattering from Fluids.” Physica 1973, 64, 247-259. 95. Gershon, N. D., and Oppenheim, I. “Polarized Light Scattering from Molecular Fluids in the Vertical-Vertical Geometry.” Physica 1973, 65, 625-627. 96. Keyes, T., and Oppenheim, Irwin. “Bilinear Hydrodynamics and the Stokes-Einstein Law.” Phys. ReV. A 1973, 8, 937-949. 97. Hamer, N., and Oppenheim, I. “A Linearized Kinetic Equation for Systems with Attractive Forces.” Physica 1973, 66, 217-244. 98. Gershon, N. D., and Oppenheim, Irwin. “Line shapes for low frequency depolarized (VH) light scattering from fluids. Coupling of rotational and translational motion.” J. Chem. Phys. 1973, 59, 1337-1341. 99. Bartis, James T., and Oppenheim, Irwin. “CorrelationFunction Method for the Evaluation of Plasma Transport Coefficients: The Self-Diffusion Coefficient.” Phys. ReV. A 1973, 8, 3174-3190. 100. Keyes, T., and Oppenheim, I. “On the Moments of the Displacement of a Tagged Particle.” Physica 1973, 70, 100-104. 101. Gershon, N. D., and Oppenheim, I. “Vibrational Effects on the Polarized Light Scattering from Fluids of Spherical Molecules in the Vertical-Vertical Geometry.” Physica 1974, 71, 131-133. 102. Gershon, N. D., and Oppenheim, I. “Coupling of Rotational, Vibrational and Translational Molecular Motions in Fluids and Low-Frequency Depolarized Light Scattering.” Physica 1974, 71, 134-137. 103. Weare, J. H., and Oppenheim, I. “Nonlinear Response I. General Considerations.” Physica 1974, 72, 1-19. 104. Weare, J. H., and Oppenheim, I. “Nonlinear Response II. Nonlinear Hydrodynamic Equations.” Physica 1974, 72, 20-42. 105. Gershon, Nahum D., and Oppenheim, Irwin. “Molecular Motion in Liquids from Low Frequency Depolarized Light Scattering.” In Molecular Motions in Liquids; J. Lascombe, Ed,; D. Reidel Publishing: DordrechtHolland, 1974; pp 553-561. 106. Bartis, J. T., and Oppenheim, I. “Transport Coefficients of Moderately Dense Gases: A Direct-Summation Procedure.” Physica 1974, 74, 1-21. 107. Bartis, James T., and Oppenheim, Irwin. “Correlationfunction method for the evaluation of plasma transport coefficients: The shear viscosity coefficient.” Phys. ReV. A 1974, 10, 1263-1271. 108. Scott, Joanna I., and Oppenheim, Irwin. “Decay of Correlations in Vibrational Relaxation.” J. Stat. Phys. 1974, 11, 51-70.

J. Phys. Chem. B, Vol. 109, No. 45, 2005 21231 109. Kutz, H. Douglas; Oppenheim, Irwin; and Ben-Reuven, Abraham. “The application of time correlation functions to chemical kinetics and vibrational relaxation.” J. Chem. Phys. 1974, 61, 3313-3326. 110. Keyes, T., and Oppenheim, I. “Long-Time Behavior of Orientation Correlation Functions.” Physica 1974, 75, 583-592. 111. Barouch, E., and Oppenheim, I. “On Spin Hamiltonians with Random Magnetic Moments.” Physica 1974, 76, 410-414. 112. Gershon, N. D., and Oppenheim, I. “Low-Resolution LowFrequency Depolarized Light (VH) Scattering from Binary Mixtures of Fluids and From Pure Fluids of Nonrigid Molecules.” Physica 1974, 78, 527-532. 113. Michaels, I. A., and Oppenheim, I. “Long-Time Tails and Brownian Motion.” Physica 1975, 81A, 221-240. 114. Keyes, T., and Oppenheim, I. “The Self-Diffusion Constant for Large Heavy Particles.” Physica 1975, 81A, 241248. 115. Michaels, I. A., and Oppenheim, I. “Trinilear Mode Effects on Transport Coefficients.” Physica 1975, 81A, 522534. 116. Oppenheim, Irwin. “Generalized Hydrodynamics.” In Topics in Statistical Mechanics and Biophysics: A Memorial to Julius L. Jackson; Piccirelli, R. A., Ed. A.I.P.: New York, 1976; 111-122. 117. Ronis, D., and Oppenheim, I. “An Exact Treatment of Some Integrals Appearing the Three-Body Contributions to Transport Coefficients.” Physica 1976, 84A, 620627. 118. Pasmanter, R. A., and Oppenheim, I. “Depolarized Light Scattered from a Fluid Near Its Be´nard Instability.” Physica 1976, 84A, 507-533. 119. Wormhoudt, J.; Steinfeld, J. I.; and Oppenheim, I. “Pressure-broadened infrared linewidths of HF:Ar and HCl: Ar at moderate densities.” J. Chem. Phys. 1977, 66, 3121-3127. 120. Ronis, D., and Oppenheim, I. “Nonlinear Response Theory for Inhomogeneous Systems in Various Ensembles.” Physica 1977, 86A, 475-489. 121. Ronis, D.; Kovac, J.; and Oppenheim, I. “Molecular Hydrodynamics of Inhomogeneous Systems: The Origin of Slip Boundary Conditions.” Physica 1977, 88A, 215241. 122. Oppenheim, Irwin; Shuler, Kurt E.; and Weiss, George H. “Stochastic Theory of Nonlinear Rate Processes with Multiple Stationary States.” Physica 1977, 88A, 191214. 123. Oppenheim, Irwin; Shuler, Kurt E.; and Weiss, George H. Stochastic Processes in Chemical Physics: The Master Equation; MIT Press: Cambridge, 1977. 124. Yuan, H. H.-H., and Oppenheim, I. “Transport in Two Dimensions. I. The Self-Diffusion Coefficient.” Physica 1978, 90A, 1-20. 125. Yuan, Herbert H.-H., and Oppenheim, Irwin. “Transport in Two Dimensions. II. The Thermal Conductivity Coefficient.” Physica 1978, 90A, 21-38. 126. Yuan, Herbert H.-H., and Oppenheim, Irwin. “Transport in Two Dimensions. III. Self-Diffusion Coefficient in Low Densities.” Physica 1978, 90A, 561-573. 127. Ronis, D.; Bedeaux, D.; and Oppenheim, I. “On the Derivation of Dynamical Equations for a System with an Interface I: General Theory.” Physica 1978, 90A, 487-506.

128. Bedeaux, D., and Oppenheim, I. “Hydrodynamic Response and Free Surface Modes for Two Immiscible Fluids.” Physica 1978, 90A, 39-57. 129. Mukamel, S.; Oppenheim, I.; and Ross, John. “Statistical reduction for strongly driven simple quantum systems.” Phys. ReV. A 1978, 17, 1988-1998. 130. Quentrec, B., and Oppenheim, I. “Local Order Effects on the Dynamics of Fluids Near the Liquid-Gas Critical Point.” Physica 1978, 92A, 42-58. 131. Oppenheim, Irwin. “Nonlinear Response Theory.” In Correlation Functions and Quasiparticle Interactions in Condensed Matter; Halley, J. Woods, Ed.; Plenum Publication Corporation: New York, 1978; 235-258. 132. Tokuyama, Michio, and Oppenheim, Irwin. “StatisticalMechanical Theory of Brownian MotionsTranslational Motion in an Equilibrium Fluid.” Physica 1978, 94A, 501-520. 133. Procaccia, Itamar; Ronis, David; and Oppenheim, Irwin. “Light Scattering from Nonequilibrium Stationary States: The Implication of Broken Time-Reversal Symmetry.” Phys. ReV. Lett. 1979, 42, 287-291. 134. Machta, Jonathan; Oppenheim, Irwin; and Procaccia, Itamar. “Light Scattering and Pair-Correlation Functions in Fluids with Nonuniform Velocity Fields.” Phys. ReV. Lett. 1979, 42, 1368-1371. 135. Procaccia, I.; Ronis, D.; Collins, M. A.; Ross, J.; and Oppenheim, I. “Statistical mechanics of stationary states. I. Formal theory.” Phys. ReV. A 1979, 19, 1290-1306. 136. Ronis, David; Procaccia, Itamar; and Oppenheim, Irwin.“Statistical mechanics of stationary states. II. Applications to low-density systems.” Phys. ReV. A 1979, 19, 1307-1323. 137. Ronis, David; Procaccia, Itamar; and Oppenheim, Irwin. “Statistical mechanics of stationary states. III. Fluctuations in dense fluids with applications to light scattering.” Phys. ReV. A 1979, 19, 1324-1339. 138. Oppenheim, I., and Levine, R. D. “Nonlinear transport processes: Hydrodynamics.” Physica A 1979, 99A, 383-402. 139. Procaccia, Itamar; Ronis, David; and Oppenheim, Irwin. “Statistical mechanics of stationary states. IV. Far-fromequilibrium stationary states and the regression of fluctuations.” Phys. ReV. A 1979, 20, 2533-2546. 140. Shuler, K. E.; Weiss, G. H.; and Oppenheim, I. “Stochastic Processes.” In Encyclopedia of Physics; Lerner, Rita G., George L. Trigg, Eds.; Addison-Wesley Publishing Co.: Reading, MA, 1979. 141. Machta, Jonathan; Oppenheim, Irwin; and Procaccia, Itamar. “Statistical mechanics of stationary states. V. Fluctuations in systems with shear flow.” Phys. ReV. A 1980, 22, 2809-2817. 142. Oppenheim, Irwin. “Fluctuations in Stationary State Systems.” In Molecular Dynamics and Structures; Miriam Balaban International Sciences Services: Philadelphia, 1980; pp 3-19. 143. Oppenheim, Irwin. “Book Review: The Maximum Entropy Formalism; Levine, R. D., and Tribus, M. Eds.; MIT Press: Cambridge, 1979; J. Stat. Phys. 1980, 23, 127. 144. Oppenheim, Irwin. “Book Review: A Modern Course in Statistical Physics, Reichl, L. E.; University of Texas Press: Austin, 1980; J. Stat. Phys. 1981, 25, 771-773.

21232 J. Phys. Chem. B, Vol. 109, No. 45, 2005 145. Hanggi, Peter; Shuler, Kurt E.; and Oppenheim, Irwin. “On the Relations Between Markovian Master Equations and Stochastic Differential Equations.” Physica 1981, 107A, 143-157. 146. Onuki, Akira, and Oppenheim, Irwin. “Diffraction and birefringence by acoustic waves in critical fluids.” Phys. ReV. A 1981, 24, 1520-1530. 147. Oppenheim, Irwin, and Machta, Jonathan. “Fluctuations in Steady State Systems.” In Scattering Techniques Applied to Supramolecular and Nonequilibrium Systems; Chen, Sow-Hsin, Chu, Benjamin, and Nossal, Ralph, Eds.; Plenum Publishing Corporation: New York, 1981; pp 551-558. 148. Aizenbud, Boris M., and Oppenheim, Irwin. “Rotational Diffusion of a Spheroidal Brownian Particle.” Physica 1982, 110A, 171-187. 149. Machta, Jonathan, and Oppenheim, Irwin. “Mode Coupling Theory of Hydrodynamics and Steady State Systems.” Physica 1982, 112A, 361-392. 150. Mohanty, U.; Shuler, K. E.; and Oppenheim, I. “On the Exact and Phenomenological Langevin Equations for a Harmonic Oscillator in a Fluid.” Physica 1982, 115A, 1-20. 151. Oppenheim, Irwin. “Thermodynamics and Fluctuations in Nonequilibrium Systems.” In Physics as Natural Philosophy; Shimony, Abner, and Feshbach, Herman, Eds.; MIT Press: Cambridge, 1982; p 43. 152. Oppenheim, Irwin. “Book Review: Nonequilibrium Thermodynamics and Its Statistical Foundation,” Kreuzer, H. J., Ed.; Clarendon Press: Oxford, 1981; J. Stat. Phys. 1982, 27, 825-826. 153. Oppenheim, Irwin. “Book Review: PerspectiVes in Statistical Physics, M. S. Green Memorial Volume”; Raveche, H. J., Ed.; Volume IX of Studies in Statistical Mechanics; Montroll, E. W., and Lebowitz, J. L., Eds.; NorthHolland Publishing Co.: Amsterdam, 1981; J. Stat. Phys. 1982, 28, 227. 154. Ronis, David, and Oppenheim, Irwin. “On the Derivation of Dynamical Equations for a System with an Interface. II. The Gas-Liquid Interface.” Physica 1983, 117A, 317-354. 155. Grabert, H.; Ha¨nggi, P.; and Oppenheim, I. “Fluctuations in Reversible Chemical Reactions.” Physica 1983, 117A, 300-316. 156. Dekker, H., and Oppenheim, I. “Two-Dimensional Random Walk Description of Fluid Flow in the Presence of a Wall: The Origin of Stick versus Slip Boundary Conditions in the Continuum Limit.” Physica 1983, 117A, 1-16. 157. Oppenheim, I., and van Kampen, N. G. “The Kinetic Origin of the Stick Boundary Condition.” Physica 1983, 122A, 277-285. 158. Alberty, Robert A., and Oppenheim, Irwin. “A continuous thermodynamics approach to chemical equilibrium within an isomer group.” J. Chem. Phys. 1984, 81, 4603-4609. 159. Alberty, Robert A., and Oppenheim, Irwin. “Analytic expressions for the equilibrium distributions of isomer groups in homologous states.” J. Chem. Phys. 1986, 84, 917-920. 160. Oppenheim, I.; Sokolovsky, A. I.; and Tseitlin, M. Yu. “On the Reduced Description of Nonequilibrium States of Simple Fluids.” Physica A 1986, 136, 1-20.

161. Eu, Byung Chan, and Oppenheim, Irwin. “On the Minkowski Tensor and Thermodynamics of Media in an Electromagnetic Field.” Physica A 1986, 136, 233-254. 162. Schramm, Peter, and Oppenheim, Irwin. “Properties of Noise Correlation Functions of Langevin-like Equations.” Physica A 1986, 137A, 81-95. 163. van Kampen, N. G., and Oppenheim, I. “Brownian Motion as a Problem of Eliminating Fast Variables.” Physica A 1986, 138, 231-248. 164. Oppenheim, Irwin. “Book Review: The Wonderful World of Stochastics: A Tribute to Elliott W. Montroll.”; J. Stat. Phys. 1986, 43. 165. Oppenheim, Irwin. “Book Review: Memory Function Approaches to Stochastic Problems in Condensed Matter.” J. Stat. Phys. 1986, 45, 355. 166. Oppenheim, Irwin. “Book Review: Multicritical Phenomena IrreVersibility and Nonpotentiality in Statistical Mechanics, Schober, Anton, Ed.; Hadronic Press Inc.: Noantum, Massachusetts, 1984”; J. Stat. Phys. 1986, 44, 1005. 167. Oppenheim, Irwin, and Romero-Rochin, Victor. “Quantum Brownian Motion.” Physica A 1987, 147, 184-202. 168. Deutch, J. M., and Oppenheim, I. “The Concept of Brownian Motion in Modern Statistical Mechanics” Faraday Discuss. Chem. Soc. 1987, 83, 1-20. 169. L’Heureux, Ivan, and Oppenheim, Irwin. “Generalized Hydrodynamics of a Nonequilibrium Steady State Fluid in a Large Temperature Gradient.” Physica A 1988, 148A, 503-520. 170. Kavassalis, Tom A., and Oppenheim, Irwin. “Derivation of the Nonlinear Hydrodynamic Equations Using Multimode Techniques.” Physica A 1988, 148, 521-555. 171. Alberty, Robert A., and Oppenheim, Irwin. “Fundamental equation for systems in chemical equilibrium.” J. Chem. Phys. 1988, 89, 3689-3693. 172. Oppenheim, Irwin. “Book Review: Simple Models of Equilibrium and Nonequilibrium Phenomena.”; J. Stat. Phys. 1988, 50, 467. 173. Oppenheim, Irwin. “Book Review: Statistical Thermodynamics of Nonequilibrium Processes.” J. Stat. Phys. 1988, 50, 1281. 174. Romero-Rochin, Victor, and Oppenheim, Irwin. “Relaxation Properties of Weakly Coupled Classical Systems.” J. Stat. Phys. 1988, 53, 307-322. 175. Oppenheim, Irwin. “Comment on ‘An equivalent theorem of the Nernst theorem.’” J. Phys. A. Math. Gen. 1989, 22, 143-144. 176. Romero-Rochin, Victor, and Oppenheim, Irwin. “Relaxation Properties of the Two-Level Systems in Condensed Phases.” Physica A 1989, 155, 52-72. 177. Oppenheim, I., and Levine, R.D. “Proposed Cooperative Model of Dissociative Chemisorption.” Chem. Phys. Lett. 1989, 155, 168-172. 178. Romero-Rochin, V., Orsky, A., and Oppenheim, I. “Theory of Spin-Relaxation Processes.” Physica A 1989, 156, 244-259. 179. Alberty, Robert A., and Oppenheim, Irwin. “Use of semigrand ensembles in chemical equilibrium calculations on complex organic systems.” J. Chem. Phys. 1989, 91, 1824-1828. 180. Oppenheim, I. “Fluctuations in Systems Subject to External Forces.” In Disordered Solids, Structures, and Processes; Di Bartolo, Baldassare, Ed.; Plenum Press: New York and London, 1989; pp 287-297.

J. Phys. Chem. B, Vol. 109, No. 45, 2005 21233 181. Oppenheim, Irwin. “Ensembles versus Assemblies and the Approach to Equilibrium.” In Proceedings of the Gibbs Symposium; Caldi, D. G., and Mostow, G. D., Eds.; Yale University, May 15-17, 1989; pp 143-154. 182. Oppenheim, I. “Book Review: A Commentary on Thermodynamics, Day, William A.; Springer-Verlag: New York, 1988”; J. Stat. Phys. 1989, 54, 1101. 183. Oppenheim, Irwin, and McBride, John. “Transport Equations for Suspensions of Inelastic Particles.” Physica A 1990, 165, 279-302. 184. Oppenheim, Irwin. “Nonlinear Response and the Approach to Equilibrium.” In Progress of Theoretical Physics (Supplement No. 99); Kawasaki, Kyozi; Kuramoto, Yoshiki; and Okamoto, Hisao, Eds., 1990; pp 369-381. 185. Oppenheim, Irwin. “Book Review: Statistical Theory of Heat: Nonequilibrium Phenomena”; Brenig, Wilhelm; Springer-Verlag: New York, 1989; J. Stat. Phys. 1990, 61, 90. 186. Oppenheim, Irwin; Shuler, Kurt E.; and Weiss, George H. “Stochastic Processes.” In Encyclopedia of Physics; Lerner, R. G., and Trigg, G. L., Eds.; VCH Publishers, Inc.: New York, 1991; pp 1177-1180. 187. L’Heureux, Ivan, and Oppenheim, Irwin. “Mode-Coupling Theory of the Convective Instability.” Physica A 1991, 173, 445-485. 188. Oppenheim, Irwin, and Orsky, Alex. “Uses and Abuses of the Langevin Equation for Chemical Reactions in Condensed Phases.” J. Stat. Phys. 1991, 65, 859-872. 189. Oppenheim, Irwin. “Book Review: The Quantum Statistics of Dynamic Processes, Fick, E., and Sauermann, G. In Springer Series in Solid-State Sciences, Vol. 86; SpringerVerlag: Berlin, 1990; J. Stat. Phys. 1991, 64, 465466. 190. Schofield, Jeremy; Lim, Raymond; and Oppenheim, Irwin. “Mode coupling and generalized thermodynamics.” Physica A 1992, 181, 89-135. 191. Alberty, Robert A., and Oppenheim, Irwin. “Use of the fundamental equation to derive expressions for the transformed Gibbs energy, entropy, and enthalpy of a gaseous reaction system at a specified partial pressure of a reactant.” J. Chem. Phys. 1992, 96, 9050-9054. 192. Schofield, Jeremy, and Oppenheim, Irwin. “Mode coupling and tagged particle correlation functions: the StokesEinstein law.” Physica A 1992, 187, 210-242. 193. Sua´rez, Alberto; Silbey, Robert; and Oppenheim, Irwin. “Memory effects in the relaxation of quantum open systems.” J. Chem. Phys. 1992, 97, 5101-5107. 194. Schofield, Jeremy, and Oppenheim, Irwin. “The hydrodynamics of inelastic granular systems.” Physica A 1993, 196, 209-240. 195. Alberty, Robert A., and Oppenheim, Irwin. “New fundamental equations of thermodynamics for systems in chemical equilibrium at a specified partial pressure of a reactant and the standard transformed formation properties of reactants.” J. Chem. Phys. 1993, 98, 8900-8904. 196. Alberty, Robert A., and Oppenheim, Irwin. “Thermodynamics of a Reaction System at a Specified Partial Pressure of a Reactant.” J. Chem. Ed. 1993, 70, 629635. 197. Schofield, Jeremy, and Oppenheim, Irwin. “Mode coupling in nonequilibrium granular flow systems.” Physica A 1994, 204, 555-605.

198. Tokuyama, Michio, and Oppenheim, Irwin. “Dynamics of hard-sphere suspensions.” Phys. ReV. E 1994, 50, R16-R19. 199. Mohanty, U.; Taubes, C.; and Oppenheim, I. “Low Temperature Relaxation and Entropic Barriers in Supercooled Liquids.” Science 1994, 266, 425-428. 200. Oppenheim, Irwin. “Book Review: Nonlinear Nonequilibrium Thermodynamics I. Linear and Nonlinear Fluctuation-Dissipation Theorems,” Stratonovich, R. L.; Springer-Verlag: Berlin, 1992); J. Stat. Phys. 1994, 77, 1109-1110. 201. Tokuyama, Michio, and Oppenheim, Irwin. “On the theory of concentrated hard-sphere suspensions.” Physica A 1995, 216, 85-119. 202. Oppenheim, I. “Mode Coupling and Long Time Tails.” Trans. Theory and Stat. Phys. 1995, 24, 781-798. 203. Tokuyama, Michio, and Oppenheim, Irwin. “Dynamics of Self-Diffusion Process in Concentrated Hard-Sphere Suspensions in Interacting Brownian Particles.” J. Korean Phys. Soc. (Proc. Suppl.) 1995, 28, S327-S332. 204. Oppenheim, Irwin. “Book Review: Contemporary Problems in Statistical Physics;” Weiss, G. H., Ed.; SIAM: Philadelphia, 1994; J. Stat. Phys. 1995, 78. 205. Liu, Cliff Z.-W., and Oppenheim, Irwin. “Enhanced diffusion upon approaching the kinetic glass transition.” Phys. ReV. E 1996, 53, 799-802. 206. Mohanty, Udayan; Ninham, Barry W.; and Oppenheim, Irwin. “Dressed polyions, counterion condensation, and adsorption excess in polyelectrolyte solutions.” Proc. Natl. Acad. Sci. U.S.A. 1996, 93, 4342-4344. 207. Shea, Joan-Emma, and Oppenheim, Irwin. “Fokker-Planck Equation and Langevin Equation for One Brownian Particle in a Nonequilibrium Bath.” J. Phys. Chem. 1996, 100, 19035-19042. 208. Oppenheim, Irwin. “Book Review: Statistical Mechanics and Thermodynamics;” Garrod, Claude, Ed.; Oxford University Press: Oxford, 1995; J. Stat. Phys. 1996, 82, 455-456. 209. Oppenheim, Irwin. “Book Review: A Survey of Thermodynamics;” Bailyn, M. Ed.; AIP Press: New York, 1994; J. Stat. Phys. 1996, 83, 791-792. 210. Tokuyama, Michio; Enomoto, Yoshihisa; and Oppenheim, Irwin. “Slow dynamics of nonequilibrium density fluctuations in hard-sphere suspensions.” Phys. ReV. E 1997, 55, R29-R32. 211. Morgado, W. A. M., and Oppenheim, Irwin. “Energy dissipation for quasielastic granular particle collisions.” Phys. ReV. E 1997, 55, 1940-1945. 212. Liu, Cliff Z.-W., and Oppenheim, Irwin. “Reexamination of the mode-coupling scheme for the glass transition.” Physica A 1997, 235, 369-387. 213. Liu, Cliff Z.-W., and Oppenheim, Irwin. “Spatial Correlations in Bounded Nonequilibrium Fluid Systems.” J. Stat. Phys. 1997, 86, 179-190. 214. van Kampen, N. G., and Oppenheim, I. “Langevin and Master Equation in Quantum Mechanics.” J. Stat. Phys. 1997, 87, 1326-1334. 215. Tokuyama, Michio; Enomoto, Yoshihisa; and Oppenheim, Irwin. “Slow dynamics of structure and fluctuations in supercooled colloidal fluids.” Phys. ReV. E 1997, 56, 2302-2305. 216. Morgado, W. A. M., and Oppenheim, I. “Kinetic equations for smooth granular systems.” Physica A 1997, 246, 547-562.

21234 J. Phys. Chem. B, Vol. 109, No. 45, 2005 217. Liu, Cliff Z.-W., and Oppenheim, Irwin. “Microscopic theory for hopping transport in glass-forming liquids.” Physica A 1997, 247, 183-195. 218. Shea, Joan-Emma, and Oppenheim, Irwin. “Fokker-Planck equation and non-linear hydrodynamic equations of a system of several Brownian particles in a non-equilibrium bath.” Physica A 1997, 247, 417-443. 219. Morgado, W. A. M., and Oppenheim, I. “Kinetic equations for smooth granular systems. II. The non-homogeneous gas.” Physica A 1997, 252, 308-324. 220. Oppenheim, Irwin. “Book Review: The LangeVin Equation with Applications in Physics, Chemistry and Electrical Engineering,” Coffey, W. T.; Kalmykov, Yu. P.; and Waldron, J. T.; World Scientific: Singapore, 1996; J. Stat. Phys. 1997, 88. 221. Shea, Joan-Emma, and Oppenheim, Irwin. “Fokker-Planck and non-linear hydrodynamic equations of an inelastic system of several Brownian particles in a non-equilibrium bath.” Physica A 1998, 250, 265-294. 222. Oppenheim, I. “Entropy Barriers in Granular Flow and Glass Formation.” In Proceedings of the 2nd Tohwa UniVersity International Meeting, Tokuyama, M., and Oppenheim, I., Eds.; World Scientific: Singapore, 1998; pp 3-5. 223. Tokuyama, M., and Oppenheim, I. “Slow Dynamics of Heterogeneous Structure and Density Fluctuations in a Supercooled Colloidal Fluid.” In Proceedings of the 2nd Tohwa UniVersity International Meeting, Tokuyama, M., and Oppenheim, I., Eds.; World Scientific: Singapore, 1998; pp 6-9. 224. Oppenheim, Irwin. “Book Review: Statistical Mechanics for Chemists,” Goodisman, J.; Wiley: New York, 1997; J. Stat. Phys. 1998, 90, 1069. 225. Oppenheim, Irwin. “Book Review: Time’s Arrows and Quantum Measurement,” Schulman, L. S.; Cambridge University Press: Cambridge, 1997; J. Stat. Phys. 1998, 91, 475. 226. Oppenheim, Irwin. “Book Review: Fundamentals and Modern Applications,” Wilde, R. E., and Singh, S.; Wiley: New York, 1998; J. Stat. Phys. 1998, 91, 10611062. 227. Tokuyama, Michio; Enomoto, Yoshihisa; and Oppenheim, Irwin. “Slow Dynamics of Nonequilibrium Density Fluctuations in Concentrated Hard Sphere Suspensions.” Int. J. Thermophys. 1998, 19, 877-885. 228. Tokuyama, M., and Oppenheim, I., Eds.; Slow Dynamics in Complex Systems: Eighth Tohwa UniVersity International Symposium; Fukuoka: Japan, 1998, AIP Conference Proceedings; p 469. 229. Oppenheim, Irwin. “Book Review: Modern Thermodynamics: From the Heat Engines to DissipatiVe Structures,” Kondepudi, Dilip, and Prigogine, Ilya; Wiley: West Sussex, 1998; J. Stat. Phys. 1999, 94. 230. Diezemann, Gregor; Mohanty, Udayan; and Oppenheim, Irwin. “Slow secondary relaxation in a free-energy landscape model for relaxation in glass-forming liquids.” Phys. ReV. E 1999, 59, 2067-2083. 231. Manno, Mauro, and Oppenheim, Irwin. “Microscopic theory for hopping transport in glass-forming liquids: mode coupling corrections.” Physica A 1999, 265, 520534.

232. Tokuyama, Michio; Enomoto, Yoshihisa; and Oppenheim, Irwin. “Slow Dynamics of Supercooled Fluids: Spatial heterogeneities and Nonequilibrium Density Fluctuations.” AIP CP 1999, 489, 268-273. 233. Tokuyama, M.; Enomoto, Y., and Oppenheim, I. “Slow dynamics of supercooled colloidal fluids: spatial heterogeneities and nonequilibrium density fluctuations.” Physica A 1999, 270, 380-402. 234. Oppenheim, Irwin. “Book Review: Thermal Physics,” Baierlein, Ralph; Cambridge University Press: Cambridge, 1999; J. Stat. Phys. 2000, 99, 1051-1052. 235. Oppenheim, Irwin. “Book Review: Statistical Physics Statics, Dynamics, and Renormalization,” Kadanoff, Leo P.; World Scientific: Singapore, 2000; J. Stat. Phys. 2001, 105, 943-944. 236. Tokuyama, Michio; Terada, Yayoi; and Oppenheim, Irwin. “Effects of spatial heterogeneities on the slow dynamics of density fluctuations near the colloidal glass transition.” Physica A 2002, 307, 27-40. 237. Oppenheim, Irwin. “Book Review: Statistical MechanicssA SurViVal Guide,” Glazer, A. M., and Wark, J. S.; Oxford University Press: Oxford, 2001; J. Stat. Phys. 2002, 107, 989. 238. Tokuyama, Michio; Terada, Yayoi; and Oppenheim, Irwin. “Nonlinear Equilibrium Density Fluctuations and Spatial Heterogeneities Near the Colloidal Glass Transition.” Proc. Stat. Phys. 2002, Taiwan. 239. Oppenheim, Irwin. “Book Review: Thermal Physicss Entropy and Free Energies,” Lee, J. C.; World Scientific: Singapore, 2002; J. Stat. Phys. 2002, 516, 11211122. 240. Oppenheim, Irwin. “Book Review: Methods of Statistical Physics,” Tanaka, Tomoyasu; Cambridge University Press: Cambridge, 2002; J. Stat. Phys. 2003, 110, 457458. 241. Oppenheim, Irwin. “Book Review: Statistical Mechanics,” Schwabl, F., transl., Brewer, W.; Springer: New York, 2002); J. Stat. Phys. 2003, 112, 124-1242. 242. Oppenheim, Irwin. “Memories of Shneior Lifson.” Biopolymers 2003, 68, 275-276. 243. Oppenheim, Irwin. “Book Review: Statistical Mechanics Made Simple,” Mattis, Daniel C.; World Scientific Publishing Co.: Singapore, 2003; J. Stat. Phys. 2004, 114, 1179-1180. 244. Oppenheim, Irwin. “Book Review: Entropy,” Greven, A.; Keller, G.; and Warnecke, G., Eds.; Princeton University Press: Princeton, 2003; J. Stat. Phys. 2004, 115, 17671768. 245. Tokuyama, Michio, and Oppenheim, Irwin, eds.Slow Dynamics in Complex Systems: 3rd International Symposium on Slow Dynamics in Complex Systems; AIP Conference Proceedings 2004, 708. 246. Tokuyma, M.; Terada, Y.; Yamazaki, H.; and Oppenheim, I. “Universal Features of Collective Interactions in HardSphere Systems at Higher Volume Interactions.” AIP Conference Proceedings 2004, 708, 8-15.