×

伊辛模型 meaning in Chinese

ising model

Examples

  1. A method beyond mean - field theory is applied to investigate the effects of the long - range interaction on the physical properties of the ferroelectric thin film
    在这篇论文里,我们在横场伊辛模型和朗道唯象理论的框架内引入长程相互作用。
  2. The curie temperature of ferroelectric films is studied using spin - 1 / 2 transverse ising model with long - range interactions within the framework of an effective - field theory
    我们首先应用有效场理论,在横场伊辛模型的框架内研究了赝自旋s = 1 / 2的具有长程相互作用的铁电薄膜的相变性质。
  3. In the second chapter , combined with the two - dimension triangle lattice ising model , we show the procedures of the renormalization group methods and illustrate how to apply these methods to solve critical exponent in detail
    在第二章中结合二维三角形晶格伊辛模型详细地介绍了重整化群方法的步骤以及如何应用重整化群方法来求解临界指数。
  4. In the framework of the transverse ising model ( tim ) , landau phase transition theory and the electrostatic field theory , we study the physical properties of the ferroelectric thin film , bilayer , sandwich structure , multilayer with a non - polarization slab and a two - dimension polar lattice model with polar defects . the main work and results are as follows : first , the long - range interaction in ferroelectric material is sometimes neglected in the previous studies . we introduce the long - range interaction in the framework of the tim and the landau theory
    本文在横场伊辛模型、朗道相变理论以及静电场等理论的框架内,对铁电薄膜、铁电双层膜、铁电三明治结构以及含有杂质层的铁电多层膜和含有偶极缺陷的二维偶极点阵系统等多层铁电系统的相变、热电、介电、电滞行为等物理性质进行了深入研究。
  5. We consider the long - range interaction , the phonon - pseudospin interaction , the interfacial effects and the size effect respectively . firstly , within the framework of spin - 1 / 2 transverse ising model ( tim ) , the long - range effects on the pyroelectric properties of a ferroelectric superlartice are studied by use of the beyond mean - field theory
    应用超越平均场的理论、格林函数方法,在横场伊辛模型的框架内,考虑了赝自旋间的长程相互作用、声子与赝自旋的相互作用、界面效应和尺寸效应,对铁电超晶格的热电性质进行了较深入的研究。
More:   Next

Related Words

  1. 伊辛克
  2. 伊辛利维
  3. 伊辛斯基
  4. 伊辛沃尔德
PC Version

Copyright © 2018 WordTech Co.