Anisotropic carrier transport properties in layered cobaltate epitaxial films grown by reactive solid-phase epitaxy

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Abstract

We give general formulations of the multidimensional multicanonical algorithm, simulated tempering, and replica-exchange method.We generalize the original potential energy function E0 by adding any physical quantity V of interest as a new energy term. These multidimensional generalized-ensemble algorithms then perform a random walk not only in E0 space but also in V space. Among the three algorithms, the replica-exchange method is the easiest to perform because the weight factor is just a product of regular Boltzmann-like factors, while the weight factors for the multicanonical algorithm and simulated tempering are not a priori known. We give a simple procedure for obtaining the weight factors for these two latter algorithms, which uses a short replica-exchange simulation and the multiple-histogram reweighting techniques. As an example of applications of these algorithms, we have performed a two-dimensional replica-exchange simulationand a two-dimensional simulated-tempering simulation using an α-helical peptide system. From these simulations, we study the helix-coil transitions of the peptide in gas phase and in aqueous solution.

Journal

  • APPLIED PHYSICS LETTERS

    APPLIED PHYSICS LETTERS 94(15), 152105-152105, 2009-04-16

    American Institite of Physics

Codes

  • NII Article ID (NAID)
    120001804822
  • Text Lang
    ENG
  • Article Type
    journal article
  • ISSN
    0003-6951
  • Data Source
    IR 
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