An adiabatic linearized path integral approach for quantum time functions: Electronic transport in metal-molten salt solutions

Causo MS; Ciccotti G; Montemayor D; Bonella S; Coker DF

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An adiabatic linearized path integral approach for quantum time functions: Electronic transport in metal-molten salt solutions

机译：量子时间函数的绝热线性化路径积分方法：金属盐溶液中的电子传输

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We generalize the linearized path integral approach to evaluate quantum time correlation functions for systems best described by a set of nuclear and electronic degrees of freedom, restricting ourselves to the adiabatic approximation. If the operators in the correlation function are nondiagonal in the electronic states, then this adiabatic linearized path integral approximation for the thermal averaged quantum dynamics presents interesting and distinctive features, which we derive and explore in this paper. The capability of these approximations to accurately reproduce the behavior of physical systems is demonstrated by calculating the diffusion constant for an excess electron in a metal-molten salt solution.

机译：我们推广了线性化路径积分方法，以评估由一组核和电子自由度最好地描述的系统的量子时间相关函数，从而将自己限制在绝热近似中。如果相关函数中的算子在电子状态下是非对角线的，那么这种对热平均量子动力学的绝热线性化路径积分逼近将表现出有趣而独特的特征，我们将在本文中进行探索。通过计算金属盐溶液中过量电子的扩散常数，可以证明这些近似值能够准确地再现物理系统的行为。

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《The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical》 |2005年第14期|共11页
作者
Causo MS; Ciccotti G; Montemayor D; Bonella S; Coker DF;
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正文语种 eng
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INITIAL-VALUE REPRESENTATION; BACKWARD SEMICLASSICAL DYNAMICS; VIBRATIONAL-ENERGY RELAXATION; COMPLEX MOLECULAR-SYSTEMS; THERMAL RATE CONSTANTS; CONDENSED-PHASE; LOCALIZATION; EQUATION;

机译：初始值表示;反向半经典动力学;振动能量松弛;复杂的分子系统;热速率常数;凝聚相;局部化;方程;

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1. An adiabatic linearized path integral approach for quantum time functions: Electronic transport in metal-molten salt solutions [J] . Causo MS, Ciccotti G, Montemayor D, The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical . 2005,第14期

机译：量子时间函数的绝热线性化路径积分方法：金属盐溶液中的电子传输
2. An open-chain imaginary-time path-integral sampling approach to the calculation of approximate symmetrized quantum time correlation functions [J] . Cendagorta Joseph R., Bacic Zlatko, Tuckerman Mark E. The Journal of Chemical Physics . 2018,第10期

机译：近似对称量子时间相关函数计算的开放式虚构时间路径积分采样方法
3. Linearized path integral approach for calculating nonadiabatic time correlation functions [J] . Sara Bonella, Daniel Montemayor, David F. Coker Proceedings of the National Academy of Sciences of the United States of America . 2005,第19期

机译：计算非绝热时间相关函数的线性化路径积分法
4. An efficient quantum Monte Carlo simulation method-path integral approach to dissipative transport in quantum devices [C] . Katayama, K., Kamohara, . 1990

机译：量子器件中耗散传输的有效量子蒙特卡罗模拟方法-路径积分法
5. Exploration, justification, and improvement of linearized path integral methods for non-adiabatic quantum time correlation functions [D] . Chen, Lina 2008

机译：非绝热量子时间相关函数的线性化路径积分方法的探索，证明和改进
6. Chemical Theory and Computation Special Feature: Linearized path integral approach for calculating nonadiabatic time correlation functions [O] . Sara Bonella, Daniel Montemayor, David F. Coker 2005

机译：化学理论与计算特色：用于计算非绝热时间相关函数的线性路径积分法
7. Linearized path integral approach for calculating nonadiabatic time correlation functions [O] . Sara Bonella, D. Montemayor, D.F. Coker 2005

机译：计算非绝热时间相关函数的线性化路径积分法
8. Charge Transport in Metal-Molten Salt Solutions [R] . Davis, H. T. 1967

机译：金属熔盐溶液中的电荷输运

An adiabatic linearized path integral approach for quantum time functions: Electronic transport in metal-molten salt solutions

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