Ground State Energy of Bulk Polaron for Polyatomic Polar Crystals in Magnetic Field

HU Wen-tao; FENG You-liang; DING Zhao-hua; XIAO Jing-lin

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Ground State Energy of Bulk Polaron for Polyatomic Polar Crystals in Magnetic Field

更新时间：2020-08-11

- Ground State Energy of Bulk Polaron for Polyatomic Polar Crystals in Magnetic Field
- Chinese Journal of Luminescence Vol. 22, Issue 1, Pages: 30-32(2001)
- 作者机构：
  
  1. 中国科学院激发态物理开放研究实验室长春,130021
  2. 内蒙古集宁师范专科学校, 内蒙古集宁,012000
  3. 内蒙古民族大学,内蒙古通辽,028043
- 作者简介：
- 基金信息：
- DOI：
  CLC： O471.3
- Received：11 August 2000，
  
  Revised：13 November 2000，
  
  Published：28 February 2001
- 稿件说明：
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胡文弢, 冯友良, 丁朝华, 肖景林. 磁场中多原子极性晶体中体极化子的基态能量[J]. 发光学报, 2001,22(1): 30-32

HU Wen-tao, FENG You-liang, DING Zhao-hua, XIAO Jing-lin. Ground State Energy of Bulk Polaron for Polyatomic Polar Crystals in Magnetic Field[J]. Chinese Journal of Luminescence, 2001,22(1): 30-32
胡文弢, 冯友良, 丁朝华, 肖景林. 磁场中多原子极性晶体中体极化子的基态能量[J]. 发光学报, 2001,22(1): 30-32 DOI：

HU Wen-tao, FENG You-liang, DING Zhao-hua, XIAO Jing-lin. Ground State Energy of Bulk Polaron for Polyatomic Polar Crystals in Magnetic Field[J]. Chinese Journal of Luminescence, 2001,22(1): 30-32 DOI：

摘要

研究磁场中多原子极性晶体中体极化子的性质。采用线性组合算符法

分别导出强、弱耦合情形下体极化子的基态能量。

Abstract

The properties of polaron of crystals influence the optical properties of the crystals very remarkably. With the development of magneto-optical technology

the properties of the polaron for polar crystals in magnetic field have been of considerable interest. Zorkani et al. calculated the ground state energy of bound magnetopolaron using variational method. Employing Haga’s perturbation method

Hu et al. derived an effective Hamiltonian for the interface magnetopolaron in polar crystals to zero temperature. Kandemir et al. discussed the ground-state and first-excited-state energy of two-dimensional large magnetopolaron by using recently introduced squeezed Landau states. The effective mass of magnetopolaron in polar crystals was investigated by means of a linear-combination operator and a perturbation method by one of the authors. Most polar crystals are diatomic and cubic and their crystal structure belongs to NaCl

CsCl or ZnS type. In these crystals there is one mode of the longitudinal optical (LO) phonon. The properties of crystals have been studied by a great variety of techniques

in the case of crystals having only one LO phonon branch. However

a large number of polar crystals

with several atoms per unit cell

have more than one LO phonon branch. For example

in cuprite such as CuO

there are two LO phonon modes. Si

GaAs

1-x

and a large number of perovskites (SrTiO

BaTiO

LiNbO

ets.) have more than two modes. In recent years

the polaron problem with many LO phonon branches has been investigated. The properties of the polaron in polyatomic polar crystals are studied using a linear-combination operator method by one of the authors. However

the magnetopolaron in polyatomic polar crystals has not been investigated so far. Recently

Wei and co-workers studied the properties of strong-coupling surface magnetopolaron in polyatomic polar crystals. In this paper

the properties of the bulk polaron for polyatomic polar crystals in magnetic field are studied. The ground state energy of a strong-and weak-coupling bulk polaron in polyatomic polar crystals are derived by the method of a linear-combination operator.

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