石墨烯第一性原理和fcc-Ni经典近似中的离散呼吸子建模:比较

I. Lobzenko
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引用次数: 5

摘要

从两个角度讨论了离散呼吸器的性质:(I)石墨烯中的从头算建模和(II)面心立方(fcc)Ni中的经典分子动力学模拟。在第一种(I)方法中,激发呼吸器的可能性取决于施加在石墨烯片上的应变。单轴应变导致声子带中的间隙打开,因此,存在频率在间隙内的呼吸器。在第二(II)种方法中,fcc-Ni的结构支持另一种类型的呼吸器,其具有硬非线性类型。结果表明,特殊的高频正模可以通过叠加一个球对称函数来构造呼吸器,该函数的最大值与呼吸器芯一致。基于非线性常模的呼吸器激励方法与近似水平无关。尽管在经典和第一性原理计算中都可以获得呼吸器,但每种情况都有优点和缺点,在本工作中进行了比较。
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Discrete breathers modeling from first principles in graphene and in classical approximation in fcc Ni: Comparison
Properties of discrete breathers are discussed from two points of view: (I) the ab initio modeling in graphene and (II) classical molecular dynamics simulations in the ace-centered cubic (fcc) Ni. In the first (I) approach, the possibility of exciting breathers depends on the strain applied to the graphene sheet. The uniaxial strain leads to opening the gap in the phonon band and, therefore, the existence of breathers with frequencies within the gap. In the second (II) approach, the structure of fcc Ni supports breathers of another kind, which possess a hard nonlinearity type. It is shown that particular high frequency normal mode can be used to construct the breather by means of overlaying a spherically symmetrical function, the maximum of which coincides with the breather core. The approach of breathers excitation based on nonlinear normal modes is independent of the level of approximation. Even though breathers could be obtained both in classical and first-principles calculations, each case has advantages and shortcomings, that are compared in the present work.
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来源期刊
Journal of Micromechanics and Molecular Physics
Journal of Micromechanics and Molecular Physics Materials Science-Polymers and Plastics
CiteScore
3.30
自引率
0.00%
发文量
27
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