Publications
  1. S. Dietrich and A. Latz: ``Classification of interfacial wetting behavior in binary liquid mixtures'', Phys.Rev. B 40, 9204 (1989).

  2. W. Götze and A. Latz, ``Generalized constitutive equations for glassy systems'', J.Phys.:Condens.Matter 1, 4169 (1989).

  3. J.L. Barrat, W. Götze and A. Latz, ``The liquid-glass transition of the hard sphere system'', J.Phys.: Condens.Matter 1,7163 (1989).

  4. J.L. Barrat and A. Latz, ``Mode coupling theory for the glass transition in a simple binary mixture'', J.Phys.: Condens.Matter 2, 4289 (1990).

  5. M. Fuchs, W. Götze and A. Latz: ``Some Comments on the  \alpha- relaxation dynamics of supercooled CaKNO3'', Chem.Phys. 149, 185 (1990).

  6. M. Fuchs and A. Latz: ``Light Scattering at the Liquid to Glass Transition'', J.Chem.Phys. 95, 7074 (1991).

  7. M. Fuchs, W. Götze, I. Hofacker and A. Latz: ``Comments on the \alpha- peak shapes for relaxation in supercooled liquids'', J.Phys.:Condens.Matter 3, 5047 (1991).

  8. M. Fuchs and A. Latz: ``Depolarized Light Scattering at the Liquid to Glass Transition'', Ber.Bunsenges.Phys.Chem. 95, 1131 (1991).

  9. I. Hofacker, M. Fuchs and A. Latz: ``The Double - Peak Phenomenon in Polymers'', Ber.Bunsenges.Phys.Chem. 95, 1046 (1991).

  10. M. Fuchs, W. Götze, S. Hildebrand and A. Latz: ``\beta- relaxation theory for simple systems: some addenda'', Z.Phys. B - Condensed Matter 87, 43 (1992).

  11. M. Fuchs, I. Hofacker and A. Latz: ``Primary Relaxation in a hard- sphere system'', Phys.Rev. A 45, 898 (1992).

  12. M. Fuchs, W. Götze, S. Hildebrand and A. Latz: ``A theory for the - relaxation process near the liquid-to-glass crossover'', J. Phys.: Condens. Matter 4, 7709 (1992).

  13. H.Z. Cummins, W.M. Du, M. Fuchs, W. Götze, S. Hildebrand, A. Latz, G. Li and N.J. Tao: ``Light Scattering Spectroscopy of the Liquid-Glass Transition in CaKNO3 and Salol'', Phys.Rev. E 47, 4223 (1993).

  14. H.Z. Cummins, W.M. Du, M. Fuchs, W. Götze, A. Latz, G. Li and N.J. Tao: ``Light Scattering Spectroscopy of the Liquid-Glass Transition: Comparison with Idealized and Extended Mode Coupling Theory Prediction'', Physica A 201, 207 (1993).

  15. M. Fuchs and A. Latz: ``\alpha- relaxation in a supercooled binary mixture'', Physica A 201, 1 (1993).

  16. M. Fuchs, H.Z. Cummins, W. Du, W. Götze, A. Latz, G. Li and N.J Tao: ``Tests of the mode coupling theory for a molten salt'', Philosoph. Mag. B 71, 771 (1995).

  17. A. Latz and T. R. Kirkpatrick, ``Superconductor glass phase in strongly disordered bulk systems'', J.Phys.: Condens.Matter 7, L103 (1995).

  18. A. Latz and R. Schmitz, ``Light scattering spectrum of supercooled liquids'', Phys. Rev. E 53, 2624 (1996).

  19. A. Latz, H. van Beijeren and J.R. Dorfman, ``Lyapunov spectrum and the conjugate pairing rule for a thermostated random Lorentz gas: kinetic theory'', Phys. Rev. Lett. 78, 207 (1997).

  20. A. Latz, ``Lyapunov spectrum of a random Lorentz gas in a magnetic field'', Z. Phys. B103, 351 (1997).

  21. A. Latz, ``\beta - relaxation amplitudes for a dipolar hard sphere glass'', J. Non-Cryst. Sol.235 - 237, 128 (1998).

  22. H. van Beijeren, A. Latz and J.R. Dorfman, ``Chaotic Properties of Dilute Two and Three Dimensional Random Lorentz Gases I: Equilibrium Systems'', Phys.Rev E 57, 4077 (1998).

  23. J. R. Dorfman, A. Latz and H. van Beijeren, ``BBGKY hierarchy methods for sums of Lyapunov exponents for dilute gases'', Chaos 8, 444 (1998).

  24. L. Fabbian, A. Latz, R. Schilling, F. Sciortino, P. Tartaglia and C. Theis, ``Molecular Correlations in a Supercooled Liquid'', Phys. Rev. E 62, 2388 (2000).

  25. L. Fabbian, A. Latz, R. Schilling, F. Sciortino, P. Tartaglia and C. Theis, Molecular mode-coupling theory for supercooled liquids: Application to water, Phys. Rev. E 60, 5768 (1999).

  26. M. Letz and A. Latz, Fluids of hard ellipsoids: Phase diagram including a nematic instability from Percus-Yevick theory, Phys. Rev E 60, 5865 (1999).

  27. M. Letz, A. Latz and R. Schilling, Ideal glass transition for hard ellipsoids, Phys. Rev. E, accepted; preprint cond-mat/9906336 (1999).

  28. A. Latz, Non equilibrium mode coupling theory for supercooled liquids and glasses, J. Phys. Condens. Matter 12, 6353 (2000).

  29. C. Theis, F. Sciortino, R. Schilling, A. Latz and P. Tartaglia, Test of molecular mode coupling theory for general rigid molecules, Phys. Rev E 62, 1856 (2000).

  30. B. Kim and A. Latz, The dynamics of the spherical p - spin model: from microscopic to asymptotic, Europhys. Lett. 53, 660 (2001).

  31. M. Fuchs, T. Franosch and A. Latz, Light scattering spectra of supercooled molecular liquids, Phys. Rev. E 63, 061209 (2001).

  32. M. Letz and A. Latz, On the theory of light scattering in molecular liquids, Eur. Phys. J. B 19, 3239 (2001).
  33. A. Winkler, A. Latz, C. Theis and R. Schilling, Molecular mode-coupling theory applied to a liquid of diatomic molecules, Phys. Rev. E 62, 8004 (2000).

  34. P. Scheidler, W. Kob, A. Latz, J. Horbach and K. Binder, Frequency dependent specific heat of viscous silica, Phys. Rev. B 63, 104204 (2001).

  35. H. van Beijeren, A. Latz and J.R. Dorfman, Chaotic properties of Dilute Two and Three Dimensional Random Lorentz Gases II: Open Systems, Phys. Rev. E 63, 016312 (2001).

  36. T. Theenhaus, R.Schilling A. Latz and M. Letz, Microscopic dynamics of molecular liquids and glasses: Role of orientations and translation-rotation coupling, Phys. Rev. E in print; preprint cond-mat/0105393 (2001).

  37. A. Latz, Universal properties of aging in structural glasses, preprint cond-mat/0106086 (2001).

  38. A. Latz, M. Letz, R. Schilling and Th. Theenhaus, Microscopic Dynamics of Hard Ellipsoids in their Liquid and Glassy Phase, preprint cond-mat/0109286.

  39. Th. Theenhaus, M. Letz, A. Latz, R. Schilling and M. P. Allen, Dynamical precursor of nematic order in a dense fluid of hard ellipsoids of revolution, preprint cond-mat/0109314.
Publications in preparation
  1. A. Latz, Theory of non equilibrium processes in supercooled liquids and glasses.

  2. A. Latz, R. Pick and T. Franosch, The polarized light scattering spectrum in molecular liquids

 
Arnulf Latz 2001-09-18