Eric Chisolm

• Publications

  1. E. Chisolm and D. Wallace, ``Dynamics of monatomic liquids,'' J.Phys.: Condens. Matter 13, R739 (2001), LA-UR-01-3242.

  2. D. Wallace, E. Chisolm, and B. Clements, ``Observation of single transits in supercooled monatomic liquids,'' Phys. Rev. E 64, 011205 (2001), LA-UR-00-5552.

  3. E. Chisolm, B. Clements, and D. Wallace, ``Mean-atom-trajectory model for the velocity autocorrelation function of monatomic liquids,'' Phys. Rev. E 63, 031204 (2001); Phys. Rev. E 64, 019902 (2001), arXiv: cond-mat/0011505, LA-UR-00-4720.

  4. E. Chisolm, ``Generalizing the Heisenberg uncertainty relation,'' Am. J. Phys. 69, 368-371 (2001), arXiv: quant-ph/0011115, LA-UR-00-1318.

  5. E. Chisolm, Formalism and Applications of Decohering Histories in Quantum Mechanics, Dissertation (Austin: University of Texas, 1998).

  6. L. J. Boya, E. Chisolm, S. M. Mahajan, and E. C. G. Sudarshan, ``Exotic Representations of the Isotropic Harmonic Oscillator,'' Intl. J. Mod. Phys. A 13, 3347-3360 (1998).

  7. E. Chisolm, E. C. G. Sudarshan, and T. F. Jordan, ``Weak Decoherence and Quantum Trajectory Graphs,'' Intl. J. Theor. Phys. 35, 485-493 (1996), arXiv: quant-ph/9506032.

• Presentations

  1. ``A first-principles equation of state of Aluminum,'' presented at the March Meeting of the American Physical Society (March 2002).

  2. ``Mean-atom-trajectory model for the velocity autocorrelation function of monatomic liquids,'' presented at the March Meeting of the American Physical Society (March 2001).

  3. ``Liquid Dynamics Theory,'' a series of talks presented to the Liquid Dynamics Working Group at LANL (June-July 2001).

  4. ``Formalism and Applications of Decohering Histories in Quantum Mechanics,'' presented at LANL (December 1998).

  5. ``Weak Decoherence and Quantum Trajectory Graphs,'' presented at the Conference on Fundamental Issues in Quantum Theory, Tata Institute for Fundamental Research, Bombay, India (September 1996).

Scott Crockett

• Publications

  1. S. Crockett, Topological lattice model of an electron coupled to a classical
      polarization field, Thesis (Grand Forks: University of North Dakota, 2001).

  2. W. Schwalm, S. Crockett and B. Moritz, ``Topological Lattice Model of Electron
     Coupled to a Classical Polarization Field", Intl. J. of Mod. Phys. B, Vol. 15, Nos.24 & 25 (2001), p3336-3343, World Scientific Publishing Company.

  3. Test of a new theoretical equation of state of elemental solids and liquids, E. Chisolm, S. Crockett, D. Wallace, Phys. Rev. B. 68, 104103 (2003).

  4. A comparison of theory and experiment of the bulk sound velocity in aluminum using a two-phase EOS, S. Crockett, E. Chisolm, D. Wallace, SCCM 2003 proceedings.

  5. Variation of thermal and cold curve contributions to thermodynamic functions along the Hugoniot, E. Chisolm, S. Crockett, D. Wallace, SCCM 2003 proceedings.

  6. Testing of a Liquid Equation of State Model Against Copper Data, S. D. Crockett, C. W. Greeff, J. D. Johnson, L. Burakovsky, SCCM 2005 proceedings

  7. Extending High-Explosives Equation of State, S. Crockett, LA-UR-06-5738.

  8. Vanadium Equation of State (SESAME 2552): A Comparison of Old and New SESAME Tables, S. Crockett and S. Rudin, LA-UR-06-8389.

  9. Gallium Equation of State, S. Crockett and L. Burakovsky, LA-UR-06-8390.

  10. Lithium Fluoride Equation of State (SESAME 7271), S. Crockett and S. Rudin, LA-UR-06-8401.

  11. A New Full Range Equation of State for Fluorine based on Highly Accurate NIST Calculations, S. Crockett, LA-UR-06-8404.

  12. Analysis of a New Lithium Hydride and Lithium Deuteride Equation of state, S. Crockett, LA-UR-06-8403.

  13. Creating New Equations of State for High Strength Materials (Boron and Boron Carbide), S. Crockett, LA-UR-06-8402.

  14. A new Aluminum Equation of State 3720, S. Crockett, LA-UR-04-6442

  15. Extending the CCW EOS II: Extending the Nuclear Contribution to High Temperatures, E. Chisolm, S. Crockett, and D. Wallace, LA-UR-04-3948.

  16. Extending the CCW EOS I: Extending the Cold and Nuclear Contributions to High Compression, E. Chisolm, S. Crockett, and D. Wallace, LA-UR-03-7344.

  17. Estimating the accuracy of the TFD cold curve, E. Chisolm, S. Crockett, D. Wallace, and J. Wills, LA-UR-03-7346.

• Presentations

  1. 14th APS SCCM Conference, Baltimore, MD (Aug, 2005)

  2. Invited Talk, UND, Grand Forks, ND (Aug, 2004)

  3. 13th APS SCCM Conference, Portland, OR (July 20, 2003)

  4. APS talk presented, Indianapolis, IN (March 2002)

  5. ``Topological model of small polaron dynamics in 2D," S. Crockett, W. Schwalm, B. Moritz (Univ. of North Dakota), APS (March 2001), Session [W32.010]

  6. ``Topological lattice model with electron-phonon coupling," W. Schwalm, S. Crockett, and B. Moritz (Univ. of North Dakota), 48th Midwest Solid State Conference, 2001, Session [G-6]

Denise George

• Publications (click)

J.D. Johnson

• Publications

  1. "Density-functional calculation of multiple-shock Hugoniots of liquid nitrogen : art. no. 014204, Mazevet S, Johnson JD, Kress JD, Collins LA, Blottiau P, PHYSICAL REVIEW B, v. 6501(#1) pp. 4204-+ JAN 1, 2002 ,LANL # n/a (download)

  2. "Calculation of a deuterium double shock Hugoniot from ab initio simulations," art. no. 275502, Militzer B, Ceperley DM, Kress JD, Johnson JD, Collins LA, Mazevet S, PHYSICAL REVIEW LETTERS, v. 8727(#27) pp. 5502-+ DEC 31, 2001, LANL # n/a (download)

  3. "Molecular dynamics ensemble, equation of state, and ergodicity," : art. no. 011106, Wood WW, Erpenbeck JJ, Baker GA, Johnson JD, PHYSICAL REVIEW E, v. 6301(#1/pt.1) pp. 1106-+ JAN 2001, LANL # n/a (download)

  4. "Three points concerning extreme compressions in shocked deuterium," Johnson JD, HIGH PRESSURE RESEARCH, v. 16(#5-6) pp. 305-311 2000, LANL # n/a

  5. "The Pauli principle and the restricted primitive model," Baker GA, Johnson JD, JOURNAL OF STATISTICAL PHYSICS, v. 100(#1-2) pp. 233-242 JUL 2000, LANL # n/a (download)

  6. "Quantum, many-body, finite-temperature perturbation theory for an electron-ion system," Baker GA, Johnson JD, PHYSICS OF PLASMAS, v. 7(#1) pp. 68-72 JAN 2000, LANL # n/a (download)

  7. "Bound and estimate for the maximum compression of single shocks," Johnson JD,
     PHYSICAL REVIEW E, v. 59(#3/pt.B) pp. 3727-3728 MAR 1999, LANL # n/a (download)

  8. "Perturbation theory calculation of the pressure for an electron-ion system," Baker GA, Johnson JD, PHYSICA A, v. 265(#1-2) pp. 129-168 MAR 15, 1999, LANL # n/a (download)

  9. "COHERENT ANTI-STOKES-RAMAN SPECTROSCOPY OF SHOCK-COMPRESSED LIQUID NITROGEN/CARBON MONOXIDE MIXTURES," SCHMIDT SC, MOORE DS, SHAW MS, JOHNSON JD , JOURNAL OF CHEMICAL PHYSICS, v. 98(#12) pp. 9379-9388 JUN 15, 1993, LANL # n/a (download)

  10. "COHERENT ANTI-STOKES-RAMAN SPECTROSCOPY OF SHOCK-COMPRESSED LIQUID CARBON-MONOXIDE," MOORE DS, SCHMIDT SC, SHAW MS, JOHNSON JD, JOURNAL OF CHEMICAL PHYSICS, v. 95(#8) pp. 5603-5608 1991, LANL # n/a

  11. "GENERAL STRUCTURE OF THE THOMAS-FERMI EQUATION OF STATE," BAKER GA, JOHNSON JD, PHYSICAL REVIEW A, v. 44(#4) pp. 2271-2283 1991, LANL # n/a (download)

  12. "THE BORDER MODEL IN ONE DIMENSION," BAKER GA, JOHNSON JD, JOURNAL OF STATISTICAL PHYSICS, v. 58(#3-4) pp. 467-474 1990, LANL # n/a

  13. "THE EFFECTIVE YIELD OF A NUCLEAR-EXPLOSION IN A SMALL CAVITY IN GEOLOGIC MATERIAL: ENHANCED COUPLING REVISITED," KING DS, FREEMAN BE, EILERS DD, JOHNSON JD, JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH AND PLANETS, v. 94(#B9) pp. 12375-12385 1989, LANL # n/a

  14. "COHERENT ANTI-STOKES RAMAN-SPECTROSCOPY OF SHOCK-COMPRESSED LIQUID-NITROGEN," MOORE DS, SCHMIDT SC, SHAW MS, JOHNSON JD, JOURNAL OF CHEMICAL PHYSICS, v. 90(#3) pp. 1368-1376 1989, LANL # n/a

  15. "COHERENT ANTI-STOKES RAMAN-SPECTROSCOPY OF SHOCK-COMPRESSED LIQUID-OXYGEN," SCHMIDT SC, MOORE DS, SHAW MS, JOHNSON JD, JOURNAL OF CHEMICAL PHYSICS, v. 91(#11) pp. 6765-6771 1989, LANL # n/a

  16. "DIAMONDS IN DETONATION SOOT," GREINER NR, PHILLIPS DS, JOHNSON JD, VOLK F, NATURE, v. 333(#6172) pp. 440-442 1988, LANL # n/a

  17. " 4-DIMENSIONAL BOSON FIELD-THEORY .3. NONTRIVIALITY," BAKER GA, JOHNSON JD,
      JOURNAL OF MATHEMATICAL PHYSICS, v. 28(#5) pp. 1146-1158 1987, LANL # n/a 

  18. "AN APPROXIMATE VARIATIONAL METHOD FOR IMPROVED THERMODYNAMICS OF MOLECULAR FLUIDS," SHAW MS, JOHNSON JD, RAMSHAW JD, JOURNAL OF CHEMICAL PHYSICS, v. 84(#6) pp. 3479-3483 1986, LANL # n/a

  19. "THERMODYNAMICS USING EFFECTIVE SPHERICAL POTENTIALS FOR CO2 ANISOTROPIES ," JOHNSON JD, SHAW MS, JOURNAL OF CHEMICAL PHYSICS, v. 83(#3) pp. 1271-1275 1985, LANL # n/a

  20. "ANGULAR-CORRELATIONS IN DENSE HOT DIATOMIC FLUIDS," MACGOWAN D, JOHNSON JD, SHAW MS, JOURNAL OF CHEMICAL PHYSICS, v. 82(#8) pp. 3765-3772 1985, LANL # n/a

  21. "4-DIMENSIONAL BOSON FIELD-THEORY," BAKER GA, JOHNSON JD JOURNAL OF PHYSICS A-MATHEMATICAL AND GENERAL, v. 18(#5) pp. L261-L266 1985, LANL # n/a

  22. "SHOCKED STATES FROM INITIALLY LIQUID-OXYGEN NITROGEN SYSTEMS ," SCHOTT GL, SHAW MS, JOHNSON JD, JOURNAL OF CHEMICAL PHYSICS, v. 82(#9) pp. 4264-4275 1985, LANL # n/a

  23.  "A TEMPERATURE INDEPENDENT SPHERICAL POTENTIAL WHICH REPRODUCES EXACTLY THE 2ND VIRIAL-COEFFICIENT OF NONPOLAR MOLECULES,"  SHAW MS, JOHNSON JD, JOURNAL OF CHEMICAL PHYSICS, v. 81(#7) pp. 3360-3361 1984, LANL # n/a

  24. "LIMITATIONS ON UNIVERSALITY IN THE CONTINUOUS-SPIN ISING-MODEL," BAKER GA, JOHNSON JD, JOURNAL OF PHYSICS A-MATHEMATICAL AND GENERAL, v. 17(#5) pp. L275-L278 1984, LANL # n/a

  25.  "THE THERMODYNAMICS OF DENSE FLUID NITROGEN BY MOLECULAR-DYNAMICS,"
      JOHNSON JD, SHAW MS, HOLIAN BL, JOURNAL OF CHEMICAL PHYSICS, v. 80(#3) pp. 1279-1294 1984, LANL # n/a

  26. "EFFECTIVE SPHERICAL POTENTIALS FOR MOLECULAR FLUID THERMODYNAMICS," SHAW MS, JOHNSON JD, HOLIAN BL, PHYSICAL REVIEW LETTERS, v. 50(#15) pp. 1141-1144 1983 LANL # n/a

  27. "A SURVEY OF ANALYTIC RESULTS FOR THE 1-D HEISENBERG MAGNETS," JOHNSON JD, JOURNAL OF APPLIED PHYSICS, v. 52(#3) pp. 1991-1992 1981, LANL # n/a

  28. "HIGH-TEMPERATURE FREE-ENERGY EXPANSION FOR METAL FLUIDS ," WALLACE DC, HOLIAN BL, JOHNSON JD, STRAUB GK, PHYSICAL REVIEW A, v. 26(#5) pp. 2882-2885 1982 LANL # n/a 

  29. "EXCITATION SPECTRUM AND THERMODYNAMIC PROPERTIES OF THE ISING-HEISENBERG LINEAR FERROMAGNET," JOHNSON JD, BONNER JC , PHYSICAL REVIEW LETTERS, v. 44(#9) pp. 616-619 1980, LANL # n/a

  30. "EXCITATION SPECTRUM AND LOW-TEMPERATURE THERMODYNAMICS OF THE ISING-HEISENBERG LINEAR FERROMAGNET," JOHNSON JD, BONNER JC , PHYSICAL REVIEW B-CONDENSED MATTER, v. 22(#1) pp. 251-265 1980, LANL # n/a

  31. "COMPARISON OF SPIN ANISOTROPY AND EXCHANGE ALTERNATION," BONNER JC, BLOTE HWJ, JOHNSON JD, JOURNAL OF APPLIED PHYSICS, v. 50(#11) pp. 7379-7381 1979
      LANL # n/a

  32. "SPIN-WAVES VS BOUND-STATES IN LINEAR ISING-HEISENBERG FERROMAGNET : EXACT SOLUTION," JOHNSON JD, BONNER JC, JOURNAL OF APPLIED PHYSICS, v. 49(#3) pp. 1334-1334 1978, LANL # n/a 

  33. "ELEMENTARY EXCITATIONS OF ISING-HEISENBERG SPIN-1/2 LINEAR FERROMAGNET,"
      JOHNSON JD, BONNER JC, BULLETIN OF THE AMERICAN PHYSICAL SOCIETY, v. 23(#3) pp. 431-431 1978 , LANL # n/a

  34. "EXACT THEORY OF MAGNETIC COOLING FOR A SYSTEM WHICH OBEYS 3RD LAW,"
      BONNER JC, JOHNSON JD, PHYSICA B & C, v. 86 pp. 653-654 1977, LANL # n/a

  35. "NUCLEAR SPIN ORDERING IN SOLID HE-3," JOHNSON JD, COHEN EGD, PHYSICAL REVIEW B-CONDENSED MATTER, v. 13(#5) pp. 2231-2234 1976, LANL # n/a

  36. "SOLID HE-3 AS A HEISENBERG ANTIFERROMAGNET," JOHNSON JD, COHEN EGD,  PHYSICAL REVIEW B-CONDENSED MATTER, v. 12(#1) pp. 297-302 1975, LANL # n/a

Andrew Kuprat

• Publications (click)

Eric Mas

• Publications  

  1. "Simulations of Plastic Bonded Explosives: Bridging Mesoscopic and Macroscopic Length Scales", E. M. Mas, B. E. Clements, and B. Schlei, Proceedings of the New Models and Hydrocodes for Shock Wave Processes in Condensed Matter Conference, 00, 0000 (2002), LA-UR-02-2894.

  2. "Vapor-Liquid Equilibrium in the Carbon Dioxide-Propylene Carbonate System
     at High Pressures", Laurie L. Williams, Eric M. Mas, and James B. Rubin,
     Journal of Chemical & Engineering Data, 47, 282 (2002), LA-UR-01-2311.

  3. "Dynamic Mechanical Behavior of Filled Polymers: I. Theoretical Developments", B. E. Clements and E. M. Mas, Journal of Applied Physics, 90, 5522 (2001), LA-UR-01-1046.

  4. "Dynamic Mechanical Behavior of Filled Polymers: II. Applications", E. M. Mas and B. E. Clements, Journal of Applied Physics, 90, 5535 (2001), LA-UR-01-1047.

  5. "Investigation of the observed anisotropic fracture is steels," B. E. Clements, E. M. Mas, and G. T. Gray III, Proceedings of the 2001 Conference of the APS Topical Group on Shock Compression of Condensed Matter, edited by M. D. Furnish, N. N. Thadhani, and Y. Horie (American Institute of Physics, Woodbury, New York, 2001) 535, LA-UR-01-3490. (download)               

  6. "APPLYING MICRO-MECHANICS TO FINITE ELEMENT SIMULATIONS OF SPLIT HOPKINSON PRESSURE BAR EXPERIMENTS ON HIGH EXPLOSIVE," E. M. Mas, B. E. Clements, W. R. Blumenthal, C. M. Cady, and G. T. Gray III, Proceedings of the 2001 Conference of the APS Topical Group on Shock Compression of Condensed Matter, edited by M. D. Furnish, N. N. Thadhani, and Y. Horie (American Institute of Physics, Woodbury, New York, 2001) 539, LA-UR-01-3491. (download)

  7. "Modeling high explosives with the method of cells and mori-tanaka effective medium theories," B. E. Clements, E. M. Mas, Proceedings of the 2001 Conference of the APS Topical Group on Shock Compression of Condensed Matter, edited by M. D. Furnish, N. N. Thadhani, and Y. Horie (American Institute of Physics, Woodbury, New York, 2001) 427, LA-UR-01-3493. (download)

  8. "A viscoelastic model for PBX binders," E. M. Mas, B. E. Clements, W. R. Blumenthal, C. M. Cady, G. T. Gray III, and C. Liu, Proceedings of the 2001 Conference of the APS Topical Group on Shock Compression of Condensed Matter, edited by M. D. Furnish, N. N. Thadhani, and Y. Horie (American Institute of Physics, Woodbury, New York, 2001) 661, LA-UR-01-3492.(download)

  9. "Dynamic mechanical behavior of filled polymers,"  B. E. Clements, E. M. Mas,
     LANL, (2000),  LA-UR-00-4681.

  10. "The Water Potential I: Near Spectroscopic Potential for Water Dimer from Symmetry-Adapted Perturbation Theory", E. M. Mas, R. Bukowski, K. Szalewicz, G. C. Groeneboom, P. E. S. Wormer, and A. van der Avoird, Journal of Chemical Physics, 113, 6687 (2000).

  11. "The Water Pair Potential II: Test on Vibration-Rotation-Tunneling Levels of the Water Dimer ", G. C. Groeneboom, P. E. S. Wormer, A. van der Avoird, E. M. Mas, R. Bukowski, and K. Szalewicz, Journal of Chemical Physics, 113, 6702 (2000).

  12. "Water Pair and Three-Body potential of Spectroscopic Quality from Ab Initio Calculations", G. C. Groeneboom, E. M. Mas, R. Bukowski, K. Szalewicz, P. E. S. Wormer, and A. van der Avoird, Physical Review Letters, 84, 4072 (2000).

  13. "Third Viral Coefficient of Argon", E. M. Mas, V. F. Lotrich, and K. Szalewicz, Journal of Chemical Physics, 110, 6694 (1999).

  14. Eric Mas, PREDICTING PROPERTIES OF GASES AND LIQUIDS USING AB INITIO MANY-BODY EXPANSION OF POTENTIAL ENERGY SURFACES. STUDIES OF ARGON AND WATER,  Dissertation (Newark: University of Delaware,1999)

  15. "Pair Potential for Water from Symmetry-Adapted Perturbation Theory", E. M. Mas, K. Szalewicz, R. Bukowski, and B. Jeziorski, Journal of Chemical Physics, 107, 4207 (1997).

  16. "Effects of Monomer Geometry and Basis Set Saturation on Computed Depth of Water Dimer Potential", E. M. Mas and K. Szalewicz, Journal of Chemical Physics, 104, 7606 (1996).

  17. "On the Effectiveness of Monomer-, Dimer-, and Bond-centered Basis Functions in Calculations of Intermolecular Interaction Energies", H. L.Williams, E. M. Mas, K. Szalewicz, and B. Jeziorski, Journal of Chemical Physics, 103, 7374 (1995).

Bernd Schlei

• Publications (click)

• Presentations (click)

Duane Wallace

• Publications

  •  REGULAR JOURNAL ARTICLES

    1.  “Specific Heat of High Purity Iron by a Pulse Heating Method,” with P. H. Sidels and G. C. Danielson, J. Appl. Phys. 31, 168 (1960).

    2.  “Specific Heat of Thorium at High Temperatures,” Phys, Rev. 120, 84 (1960).

    3.  “Magnetic Susceptibility of the Cubic Sodium Tungsten Bronzes,” with J. D. Greiner and H. R. Shanks, J. Chem. Phys. 36, 772 (1962).

    4.  “Anharmonic Contributions to Specific Heat,” with J. M. Keller, Phys. Rev. 126, 1275 (1962).

    5.  “Nuclear Magnetic Resonance in Cubic Sodium Tungsten Bronzes,” with A. Narath, Phys. Rev. 127, 724 (1962).

    6.  “Spin Waves in Complex Lattices,” Phys. Rev. 128, 1614 (1962).

    7.  “Thermal Studies of  ,” with D. D. Glower, J. Phys. Soc. Japan 18, 679 (1963).

    8.  “Anharmonic Free Energy of Crystals at High Temperatures,” Phys. Rev. 131, 2046 (1963)

    9.  “Anharmonic Free Energy of Crystals at Low Temperatures and at Absolute Zero,” Phys. Rev. 133, A153 (1964).

    10.  “Stability of Crystal Lattices,” with J. L. Patrick, Phys. Rev. 137, A152 (1965).

    11.  “Energy Migration and Localization Processes in -Irradiated, Amorphous n-Alkyl Disulfides,” with F. K. Truby and J. E. Hesse, J. Chem. Phys. 42, 3845 (1965).

    12.  “Thermal Expansion and Other Anharmonic Properties of Crystals,” Phys. Rev. 139, A877 (1965).

    13.  “Renormalization and Statistical Mechanics in Many-Particle Systems.  I. Hamiltonian Perturbation Method,” Phys. Rev. 152, 247 (1966).

    14.  “Renormalization and Statistical Mechanics in Many-Particle Systems. II. Statistical Perturbation Method,” Phys. Rev. 152, 261 (1966).

    15.  “Renormalized Spin Waves in the Heisenberg Ferromagnet,” Phys. Rev. 153, 547 (1967).

    16.  “Thermoelasticity of Stressed Materials and Comparison of Various Elastic Constants,” Phys. Rev. 162, 776 (1967).

    17.  “Calculation of Specific Heat from Measured Phonon Frequencies,” Phys. Lett. 26A, 256 (1968).

    18.  “Qualitative Temperature and Volume Dependence of the Thermal Expansion Coefficient of Solids,” Phys. Rev. 176, 827 (1968).

    19.  “Pseudopotential Calculation of the Thermal Expansion Coefficient of Sodium and Potassium,” Phys. Rev. 176, 832 (1968).

    20.  “Pseudopotential Calculation of Phonon Frequencies and Grüneisen Parameters for Lithium,” Phys. Rev. 178, 900 (1969).

    21.  “Pseudopotential Calculation of the Elastic Constants of Simple Metals,” Phys. Rev. 182, 778 (1969).  Erratum, Phys. Rev. B1, 942 (1970).

    22.  “Dependence of Phonon Frequencies on the Pseudopotential Form Factor for Aluminum,” Phys. Rev. 187, 991 (1969).

    23.  “Lattice Dynamical Calculation of Some Thermodynamic Properties for Aluminum,” Phys. Rev. B1, 3963 (1970).

    24.  “Anharmonic Interactions in Aluminum. I,” with T. R. Koehler and N. S. Gillis, Phys. Rev. B1, 4521 (1970).

    25.  “Theoretical Calculation of the Electronic Thermal Expansion of Simple Metals,” J. Appl. Phys. 41, 5055 (1970).

    26.  “Pseudopotential Determination of the Martensitic Phase Transition in Sodium,” with G. K. Straub, Phys. Rev. B3, 1234 (1971).

    27.  “A New Model for the Lattice Dynamics of Alkali Halides,” Aust. J. Phys. 26, 217 (1973).

    28.  “Irreversible Thermodynamics of Flow in Solids,” Phys. Rev. B22, 1477 (1980).

    29.  “Flow Process of Weak Shocks in Solids,” Phys. Rev. B22, 1487 (1980).

    30.  “Equation of State from Weak Shocks in Solids,” Phys. Rev. B22, 1495 (1980).

    31.  “Irreversible Thermodynamics of Overdriven Shocks in Solids,”  Phys. Rev. B24, 5597 (1981).

    32.  “Nature of the Process of Overdriven Shocks in Metals,” Phys. Rev. B24, 5607 (1981).

    33.  “Theory of the Shock Process in Dense Fluids,” Phys. Rev. A25, 3290 (1982).

    34.  “Thermodynamic Properties of Solid Sodium from Quasiharmonic Lattice Dynamics and Molecular Dynamics,” with R. E. Swanson, G. K. Straub, and B. L. Holian, Phys. Rev. B25, 7807 (1982).

    35.  “High-Temperature Free-Energy Expansion for Metal Fluids,” with B. L. Holian, J. D. Johnson, and G. K. Straub, Phys. Rev. A26, 2882 (1982).

    36.  “Melting of Pseudopotential Sodium from Molecular Dynamics,” with B. L. Holian, G. K. Straub, and R. E. Swanson, Phys. Rev. B27, 2873 (1983).

    37.  “Ensemble Corrections for the Molecular Dynamics Ensemble,” with G. K. Straub, Phys. Rev. A27, 2201 (1983).

    38.  “Thermodynamic Properties of Fluid Sodium from Molecular Dynamics,” with G. K. Straub and S. K. Schiferl, Phys. Rev. B28, 312 (1983).

    39.  “Stresses and Elastic Constants of Metals with Classical Ion Motion,” with G. K. Straub and S. K. Schiferl, Phys. Rev. A30, 616 (1984).

    40.  “Thermodynamic Calculations for bcc Sodium at High Pressures,” with G. K. Straub, Phys. Rev. B30, 3929 (1984).

    41.  “Elastic Constants of Crystalline Sodium from Molecular Dynamics,” with S. K. Schiferl, Phys. Rev. B31, 7662 (1985).

    42.  “Statistical Errors in Molecular Dynamics Averages,” with S. K. Schiferl, J. Chem. Phys. 83, 5203 (1985).

    43.  “Nonequilibrium Statistical Mechanics of a Dense Fluid,” Phys. Rev. A35, 4334 (1987).

    44.  “Correlation Entropy in a Classical Liquid,” Phys. Lett. A122, 418 (1987).

    45.  “On the Role of Density Fluctuations in the Entropy of a Fluid,” J. Chem. Phys. 87, 2282 (1987).

    46.  “Statistical Entropy and a Qualitative Gas-Liquid Phase Diagram,” Phys. Rev. A38, 469 (1988).

    47.  “Extension of Boltzmann’s Theory to a Liquid,” Nuclear Physics B (Proc. Suppl.) 5A, 267 (1988).

    48.  “Statistical Theory for the Entropy of a Liquid,” Phys. Rev. A39, 4843 (1989).

    49.  “Overdriven Shocks in Solids and Liquids,” in Shock Compression of Condensed Matter 1991, ed. by S. C. Schmidt, R. D. Dick, J. W. Forbes, and D. G. Tasker (Elsevier, Amsterdam, 1992).

    50.  “Entropy of Liquid Metals,” Proc. R. Soc. Lond. A433, 615 (1991).

    51.  “Melting of Elements,” Proc. R. Soc. Lond. A433, 631 (1991).

    52.  “A Model of the Shear Modulus,” with D. L. Preston, Sol. State Comm. 81, 277 (1992).

    53.  “Compression Dependence of the Melting of Elements,” Proc. R. Soc. Lond. A439, 177 (1992).

    54.  “Anharmonic Entropy of Alkali Metals,” Phys. Rev. B46, 5242 (1992).

    55.  “Electronic, Quasiharmonic, and Anharmonic Entropies of Transition Metals,” with O. Eriksson and J. M. Wills, Phys. Rev. B46, 5221 (1992).

    56.  “Ab Initio Calculation of Melting and Thermodynamic Properties of Crystal and Liquid Aluminum,” with G. K. Straub, J. B. Aidun, J. M. Wills, and C. R. Sanchez-Castro, Phys. Rev. B50, 5055 (1994).

    57.  “Temperature Dependence of Pair Correlations and Correlation Entropy in a Fluid,” with C.R. Sanchez-Castro, J. B. Adiun, G. K. Straub, and J. M. Wills, Phys. Rev. E50, 2014 (1994).

    58.  “Metastability and Dynamics of the Shock-Induced Phase Transition in Iron,” with J. C. Boettger, Phys. Rev. B55, 2840 (1997).

    59.  “Evaluation of Thermodynamic Functions of Elemental Crystals and Liquids,” Phys. Rev. E56, 1981 (1997).

    60.  “A Model for the Shock-Induced Phase Transition in Iron,” with J. C. Boettger, in Shock Compression of Condensed Matter 1997 (American Institute of Physics, 1998), p. 129.

    61.  “Theoretical Analysis of the Shock-Induced Phase Transition in Iron,” with J. C. Boettger, New Models and Numerical Codes for Shock Wave Processes in Condensed Media, edited by I. G. Cameron (AWE Hunting-BRAE. Aldermaston , England, 1998), p.228.

    62.  “Statistical Mechanics of Monatomic Liquids,” Phys. Rev. E56, 4179 (1997).

    63.  “Liquid Dynamics Theory of High-Temperature Specific Heat,” Phys. Rev. E57 , 1717 (1998).

    64.  “Liquid Dynamics Theory of the Velocity Autocorrelation Function and Self-Diffusion,” Phys. Rev. E58, 538 (1998).

    65.  “Electronic and Phonon Properties of Six Crystalline Phases of Pu Metal,” Phys. Rev. B58, 15433 (1998).

    66.  “Nature of the Many-Particle Potential in the Monatomic Liquid State: Energetics, Kinetics, and Stability,” with B. E. Clements, Phys. Rev. E59, 2942 (1999).

    67.  “Nature of the Many-Particle Potential in the Monatomic Liquid State: Radial and Angular Structure,” with B. E. Clements, Phys. Rev E59, 2955 (1999).

    68.  “Application of Liquid Dynamics Theory to the Glass Transition,” Phys. Rev. E60, 7049 (1999).

    69.  “Theory of Stress Fluctuations,” Phys. Rev. E62, 3077 (2000).

    70.  “Mean-atom-Trajectory Model for the Velocity Autocorrelation Function of Monatomic Liquids,” with E. D. Chisolm and B. E. Clements, Phys. Rev. E63, 031204 (2001).

    71.  “Observation of Single Transits in Supercooled Monatomic Liquids,” with E. D. Chisolm and B. E. Clements, Phys. Rev. E64, 011205 (2001)

  •  REVIEW ARTICLES, BOOK, AND MONOGRAPHS

    1.  “Lattice Dynamics and Elasticity of Stressed Crystals,” Rev. Mod. Phys. 37, 57 (1965).

    2.  “Lattice Dynamics and the Stability of Crystals,” in Advances in Materials Research, edited by H. Herman (Interscience Publishers, New York, 1968), Vol. 3, p. 331.

    3.  “Thermoelasticity of Stressed Crystals and Higher-Order Elastic Constants,” in Solid State Physics, edited by H. Ehrenreich, F. Seitz, and D. Turnbull (Academic Press, New York, 1970), Vol. 25, p. 301.

    4.  Thermodynamics of Crystals (John Wiley & Sons, New York, 1972; reprinted Dover, New York, 1998).

    5.  Thermoelastic-Plastic Flow in Solids (LA-10119, Los Alamos, 1985).

    6.  Structure of Shocks in Solids and Liquids (LA-12020, Los Alamos, 1991).

    7. “Dynamics of Monatomic Liquids,” with E. D. Chisolm, J. Phys.: Condens. Matter 13, R739 (2001).

• Presentations

  1.  “Electron Response Theory of Lattice Vibrations: Emergence of Concepts and a Glance at the Future,” European Physical Society (Antwerp, April, 1980).  Later published in Recent Developments in Condensed Matter Physics, edited by J. T. Devreese (Plenum, New York, 1981), Vol. 1, p. 281.

  2.  “Structure of Overdriven Shocks in Metals,”  American Physical Society (Washington, D.C., April, 1982).

  3.  “Molecular Dynamic Calculations of Melting in Metallic Sodium,” University of California Conference on Statistical Mechanics (Davis, California, March 1984).

  4.  “Molecular Dynamic Simulations of Many-Particle Systems: New Faces on Old Problems,” lectures at a NATO summer school in Belgium, 1984.  Published in Electronic Structure, Dynamics, and Quantum Structural Properties of Condensed Matter, edited by J. T. Devreese and P. Van Camp (Plenum, New York, 1985), p. 521.

  5.  “Computer Simulation of Nonequilibrium Processes,” Plenary Talk, APS Topical Conference on Shock Waves in Condensed Matter (Spokane, July, 1985).  Published in Shock Waves in Condensed Matter, edited by Y. M. Gupta (Plenum, New York, 1986), p. 37.

  6.  “Statistical Mechanical Theory of Liquid Entropy,” Plenary Talk at the First Congress of the International Society of Theoretical Chemical Physics (Girona, July, 1993).  Published in Int. J. Quantum Chem. 52, 425 (1994).

  7.  Plus a large number of seminars and colloquia at Universities, at government and industrial laboratories, at conferences and workshops, from 1957 to the present, in USA, Switzerland, Australia, Belgium, Italy, Germany, France, Holland, and Spain.