General Quantum Alchemical Free Energy Simulations via Hamiltonian Interpolation

Chenghan Li, Xing Zhang, Garnet Kin-Lic Chan
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Abstract

We present an implementation of alchemical free energy simulations at the quantum mechanical level by directly interpolating the electronic Hamiltonian. The method is compatible with any level of electronic structure theory and requires only one quantum calculation for each molecular dynamics step in contrast to multiple energy evaluations that would be needed when interpolating the ground-state energies. We demonstrate the correctness and applicability of the technique by computing alchemical free energy changes of gas-phase molecules, with both nuclear and electron creation/annihilation. We also show an initial application to first-principles pKa calculation for solvated molecules where we quantum mechanically annihilate a bonded proton.
通过哈密顿插值进行通用量子炼金术自由能模拟
我们提出了一种在量子力学水平上通过直接插入电子哈密顿来实现炼金术自由能模拟的方法。该方法与任何水平的电子结构理论都兼容,并且每个分子动力学步骤只需进行一次量子计算,而插值基态能量时则需要进行多次能量评估。我们通过计算气相分子的炼金术自由能变化(包括核和电子的产生/湮灭),证明了该技术的正确性和适用性。我们还展示了量子力学湮灭键合质子在溶解分子第一原理 pKa 计算中的初步应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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