Discretization errors in molecular dynamics simulations with deterministic and stochastic thermostats

Davidchack R.L.

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Discretization errors in molecular dynamics simulations with deterministic and stochastic thermostats

机译：确定性和随机恒温器的分子动力学模拟中的离散化误差

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We investigate the influence of numerical discretization errors on computed averages in a molecular dynamics simulation of TIP4P liquid water at 300. K coupled to different deterministic (Nosé-Hoover and Nosé-Poincaré) and stochastic (Langevin) thermostats. We propose a couple of simple practical approaches to estimating such errors and taking them into account when computing the averages. We show that it is possible to obtain accurate measurements of various system quantities using step sizes of up to 70% of the stability threshold of the integrator, which for the system of TIP4P liquid water at 300. K corresponds to the step size of about 7. fs.

机译：我们在300. K的TIP4P液态水的分子动力学模拟中研究了数值离散误差对计算平均值的影响，耦合了不同的确定性温度（Nosé-Hoover和Nosé-Poincaré）和随机（Langevin）恒温器。我们提出了两种简单实用的方法来估计此类误差，并在计算平均值时将其考虑在内。我们表明，使用高达积分器稳定性阈值70％的步长，可以获得各种系统数量的准确测量值，对于TIP4P液态水系统，其值为300。K对应于大约7的步长fs。

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《Journal of Computational Physics 》 |2010年第24期| 共24页
作者
Davidchack R.L.;
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正文语种 eng
中图分类数学物理方法 ;
关键词
Backward error analysis; Configurational temperature; Debye relaxation time; Diffusion coefficient; Langevin thermostat; Nosé-Hoover thermostat; Numerical integrator; Radial distribution function; Richardson extrapolation;

机译：后向误差分析;构型温度;德拜弛豫时间;扩散系数;兰格温恒温器;Nosé-Hoover恒温器;数值积分器;径向分布函数;理查森外推;

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专利

1. Discretization errors in molecular dynamics simulations with deterministic and stochastic thermostats (vol 229, pg 9323, 2010) [J] . Davidchack Ruslan L. Journal of Computational Physics . 2015 ,第Null期

机译：确定性和随机恒温器的分子动力学模拟中的离散化误差（第229卷，第9323页，2010年）
2. Conserving the Linear Momentum in Stochastic Dynamics: Dissipative Particle Dynamics as a General Strategy to Achieve Local Thermostatization in Molecular Dynamics Simulations [J] . Passler Peter P., Hofer Thomas S. Journal of Computational Chemistry: Organic, Inorganic, Physical, Biological . 2017 ,第5a6期

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3. Conserving the Linear Momentum in Stochastic Dynamics: Dissipative Particle Dynamics as a General Strategy to Achieve Local Thermostatization in Molecular Dynamics Simulations [J] . Passler Peter P., Hofer Thomas S. Journal of Computational Chemistry: Organic, Inorganic, Physical, Biological . 2017 ,第5a6期

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7. Discretization errors in molecular dynamics simulations with deterministic and stochastic thermostats [O] . Davidchack, Ruslan L. 2014

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Discretization errors in molecular dynamics simulations with deterministic and stochastic thermostats

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