摘要
有不少的极性半导休,电子与表面声学声子和体纵光学声子的耦合弱,但与表面光学声手的耦台强.本文同时考虑体纵光学声子、表面光学声子以及表面声学声予的影响,研究这类半导体的表面电予的性质,采用线性组合算符和拉格朗日乘子法,导出其有效哈密顿量和重正化质量。
In the early 1970's, Ibach made the low energy electron diffracting experimentation on the surface of semiconductor [ZnO etc.. The surface polarop in the crystals was of considerable interest. Evans, Mills and Sak studied theoretically the surface polaron in polar crystals for the first time. Evans et al. investigated the effect of bulk LOphonon on the surface polaron. Gu et al. discussed ideal surface polaron and the weak and intermediate coupling polaron in semi-infinite polar crystal. There is a weak coupling between electrons and BO SA phonons but a strong coupling between electrons and SO phonons for many kinds of polar semiconductors. For αs>2.5, it belongs to the strong coupling.In this paper, the properties of the surface electrons in polar semiconductor, which is coupled both with SO BO and SA phonons, are studied. The effective Hamiltonian and the renormalization masses of the surface electrons are derived by using a linear-combination-operator and Lagrange multiplier method.The Hamiltonian of the electron-phonon system can be written as(la). We introduce the creation and annihilation operator B and B by (3) and carry out the unitary transformation U1 and U2. The ground state wave function of the system is φ=φ(p)|0>. In the unitary transformation, U1 with A1=0 , A2=A3=1 corresponds to the weak coupling between electrons and BO SA phonons and the strong coupling between electrons and SO phonons.We now consider two limit cases.1. The electron is near the surface, i.e. z<<uL-1. In this case, we have (20) and (21).2. The electron goes very deep into the bulk, i.e. z>>uL-1 In this case, we get (23) and (24).The effective Hamiltonian, the self-trapping energy,the image potential and the rencrmalization masses cf the surface electrons in the two limit cases are discussed.
出处
《发光学报》
EI
CAS
CSCD
北大核心
1993年第1期82-92,共11页
Chinese Journal of Luminescence
基金
内蒙古自然科学基金
关键词
极性
表面
电子
半导体材料
耦合
polar semiconductor
surface electrons
effective bamiltonian