Comparing linear and nonlinear hydrodynamical models for charge transport in graphene based on the Maximum Entropy Principle

Luca Liliana; Romano Vittorio

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Comparing linear and nonlinear hydrodynamical models for charge transport in graphene based on the Maximum Entropy Principle

机译：基于最大熵原理的石墨烯中电荷输运的线性和非线性流体动力学模型比较

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Two hydrodynamical models for charge transport in graphene are presented. They are deduced as moment equations of the semiclassical Boltzmann equation with the needed closure relations obtained by resorting to the Maximum Entropy (Principle Jaynes, 1957; Muller and Ruggeri, 1998; Jou et al., 1993; Mascali and Romano, 2005). The models differ in the choice of the moments to assume as basic field variables. Both linear and nonlinear closure relations are analyzed. A comparison is performed with the results given by directly solving the transport equation through the method in Romano et al. (2015) and Coco et al. (2016). It has been found out that it is crucial to include the deviatoric part of the stress tensor. At the same time, it appears that the differences in the results between the linear and nonlinear models are not relevant.

机译：提出了用于石墨烯中电荷传输的两种流体动力学模型。它们被推导为半经典玻尔兹曼方程的矩方程，并通过求出最大熵获得所需的闭合关系（Principle Jaynes，1957； Muller和Ruggeri，1998； Jou等，1993； Mascali和Romano，2005）。这些模型在选择矩作为基本场变量方面有所不同。分析了线性和非线性闭合关系。通过使用Romano等人的方法直接求解运输方程所给出的结果进行比较。（2015）和可可（Coco）等人。（2016）。已经发现，包括应力张量的偏斜部分是至关重要的。同时，线性模型和非线性模型之间的结果差异似乎无关紧要。

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来源
《International journal of non-linear mechanics》 |2018年第9期|39-58|共20页
作者
Luca Liliana; Romano Vittorio;
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作者单位

Univ Catania, Dept Math & Comp Sci, Viale Andrea Doria 6, I-95125 Catania, Italy;

Univ Catania, Dept Math & Comp Sci, Viale Andrea Doria 6, I-95125 Catania, Italy;

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正文语种 eng
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关键词
Graphene; Charge transport; Maximum Entropy Principle;

机译：石墨烯电荷输运最大熵原理;

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3. Maximum-entropy principle for nonlinear hydrodynamic transport in semiconductors [J] . M. Trovato, P. Falsaperla Continuum mechanics and thermodynamics . 2008,第8期

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Comparing linear and nonlinear hydrodynamical models for charge transport in graphene based on the Maximum Entropy Principle

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