• [19] D. J. Earl, C. M. Pooley, J. F. Ryder, I. Bredberg and J. M. Yeomans, ``Modeling microscopic swimmers at low Reynolds numbers," J. Chem. Phys., to appear (2007).

  • [18] D. J. Earl and M. W. Deem, ``Monte Carlo Simulations," in Molecular Modeling of Proteins, Humana Press (2007).

  • [17] Z. Li, M. C. Johnson, M. Sun, E. T. Ryan, D. J. Earl, W. Maichen, J. I. Martin, S. Li, C. M. Lew, D. I. Medina, J. Wang, M. W. Deem, M. E. Davis, and Y. Yan, ``Mechanical and Dielectric Properties of Pure-Silica-Zeolites as Low-k Materials,'' Angewandte Chemie Int. Ed., 45 (2006) 6329-6332.

  • [16] D. J. Earl and M. W. Deem, ``Toward a Database of Hypothetical Zeolite Structures," Eduardo Glandt special issue, Ind. & Eng. Chem. Res., 45 (2006) 5449-5454 (Reprint).

  • [15] V. Gupta, D. J. Earl and M. W. Deem, ``Quantifying influenza vaccine efficacy and antigenic distance," Vaccine, 24 (2006) 3881-3888 (Reprint).

  • [14] J. Sun, D. J. Earl and M. W. Deem, ``Localization and Glassy Dynamics in the Immune System," Mod. Phys. Lett. B, 20 (2006) 63-95 (Reprint).

  • [13] D. J. Earl and M. W. Deem, ``Parallel Tempering: Theory, Applications, and New Perspectives," Phys. Chem. Chem. Phys., 7 (2005) 3910-3916 (Reprint) (Hot Article) (Front Cover).

  • [12] J. Sun, D. J. Earl and M. W. Deem, ``Glassy Dynamics in the Adaptive Immune Response Prevents Autoimmune Disease," Phys. Rev. Lett., 95 (2005) 148104 (Reprint) (Highlighted in Nature Reviews Immunology).

  • [11] D. J. Earl and M. W. Deem, ``Markov chains of infinite order and asymptotic satisfaction of balance: Applic ation to the adaptive integration method," David Chandler Festschrift, J. Phys. Chem. B, 109 (2005) 6701-6704 (Reprint).

  • [10] D. J. Earl, M. A. Osipov, H. Takezoe, Y. Takanishi and M. R. Wilson, ``Induced and spontaneous deracemization in bent-core liquid crystal phases and in other phases doped with bent-core molecules," Phys. Rev. E, 71 (2005) 021706 (Reprint).

  • [9] D. J. Earl and M. W. Deem, ``Evolvability is a selectable trait," Proc. Natl. Acad. Sci. USA, 101 (2004) 11531-11536 (Reprint) (News and Commentary in Heredity) (Highlighted in Nature Reviews Genetics). A top 100 most read paper in PNAS in 2004.

  • [8] D. J. Earl and M. W. Deem, ``Optimal Allocation of Replicas to Processors in Parallel Tempering Simulations,'' Hans C. Andersen Festschrift, J. Phys. Chem. B, 108 (2004) 6844-6849 (Reprint).

  • [7] D. J. Earl and M. R. Wilson, ``Calculations of helical twisting powers from intermolecular torques,'' J. Chem. Phys., 120 (2004) 9679-9683 (Reprint).

  • [6] D. J. Earl and M. R. Wilson, ``Predictions of molecular chirality and helical twisting powers: A theoretical study,'' J. Chem. Phys., 119 (2003) 10280-10288 (Reprint).

  • [5] D. J. Earl, ``Predictions of helical twisting powers and molecular chirality," Ph.D. thesis, University of Durham (2003). Contact for information.

  • [4] M. P. Neal, M. Solymosi, M. R. Wilson and D. J. Earl, ``Helical twisting power and scaled chiral indices,'' J. Chem. Phys., 119 (2003) 3567-3573 (Reprint).

  • [3] M. Solymosi, R. J. Low, M. Grayson, M. P. Neal, M. R. Wilson and D. J. Earl, ``Scaled chiral indices for ferroelectric liquid crystals,'' Ferroelectrics, 277 (2002) 169-176 (Reprint).

  • [2] M. R. Wilson and D. J. Earl, ``Calculating the helical twisting powers of chiral dopants,'' J. Mater. Chem., 11 (2001) 2672-2677 (Reprint).

  • [1] D. J. Earl, J. Ilnytskyi and M. R. Wilson, ``Computer simulations of soft repulsive spherocylinders,'' Mol. Phys., 99 (2001) 1719-1726 (Reprint).

    • © 2006 David J. Earl, Dept. of Chemistry, University of Pittsburgh