Influence of Coulomb interaction on interband photogalvanic effect in semiconductors

arXiv - PHYS - Mesoscale and Nanoscale Physics Pub Date : 2024-09-09 DOI:arxiv-2409.05571
G. V. Budkin, E. L. Ivchenko
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Abstract

The ballistic and shift contributions to the interband linear photogalvanic effect are calculated in the same band structure model of a noncentrosymmetric semiconductor. The calculation uses a two-band generalized Dirac effective Hamiltonian with the off-diagonal components containing $\mathbf{ k}$-dependent terms of the first and second order. The developed theory takes into account the Coulomb interaction between the photoexited electron and hole. It is shown that in typical semiconductors the ballistic photocurrent $j^{({\rm bal})}$ significantly exceeds the shift current $j^{({\rm sh})}$: the ratio $j^{({\rm sh})}/j^{({\rm bal})}$ has the order of $a_B/ \ell$, where $a_B$ is the Bohr radius and $\ell$ is the mean free path of photocarriers due to their quasi-momentum scattering.
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库仑相互作用对半导体带间光电效应的影响
在非新对称半导体的同一带状结构模型中,计算了带间线性光电效应的弹道贡献和位移贡献。计算使用的是双带广义狄拉克有效哈密顿,其对角线外分量包含一阶和二阶的$\mathbf{ k}$依赖项。所建立的理论考虑了光辐射电子和空穴之间的库仑相互作用。研究表明,在典型的半导体中,弹道光电流 $j^{({\rm bal})}$明显超过位移电流 $j^{({\rm sh})}$:其中 $a_B$ 是玻尔半径,$\ell$ 是光载流子因其准动量散射而产生的平均自由路径。
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arXiv - PHYS - Mesoscale and Nanoscale Physics
arXiv - PHYS - Mesoscale and Nanoscale Physics
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