Time-domain calculation of surface nonlinear susceptibilities

Ultrafast Nonlinear Optics Pub Date : 2009-10-02 DOI:10.1117/12.851253

M. Stamova, F. Rebentrost

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Abstract

Linear and nonlinear optical methods play an important role in surface science. On a microscopic level the theoretical understanding of the surface-specific second-order response is still incomplete. We discuss the calculation of linear and nonlinear optical response functions for Si(111) surfaces within a real-space and time-dependent approach. The electronic structure is modeled by cyclic-cluster configurations in real space using a tight-binding parametrization of the system hamiltonian. We apply a time-dependent formalism based on an equation of motion for the one-electron density matrix to obtain the linear S(τ) and nonlinear S(τ1, τ2) response functions for the optical polarization which also describe the corresponding response to ultrashort pulses. The Fourier transforms of S(τ) and S(τ1, τ2) are the frequency-dependent optical susceptibilities for the linear X(1)(-ω;ω), and second-order response, X(2)(-ω1-ω2; ω1,ω2), for sum-frequency and second-harmonic (ω1=ω2) generation from surfaces. By a time-dependent Hartree-Fock method we treat the excitonic effects due to the Coulomb interaction between the photoexcited electrons and holes. Results for the spectral dependencies of the linear and nonlinear optical susceptibilities are presented.

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表面非线性磁化率的时域计算

线性和非线性光学方法在表面科学中起着重要作用。在微观层面上，对表面特异性二阶响应的理论认识仍然不完整。我们讨论了Si(111)表面的线性和非线性光学响应函数的计算。利用系统哈密顿量的紧约束参数化，在真实空间中建立了循环簇构型的电子结构模型。我们应用基于单电子密度矩阵运动方程的时间相关公式，得到了光偏振的线性S(τ)和非线性S(τ1， τ2)响应函数，它们也描述了相应的超短脉冲响应。S(τ)和S(τ1， τ2)的傅里叶变换是线性X(1)(-ω;ω)和二阶响应X(2)(-ω1-ω2;ω1，ω2)，用于表面产生的和频和二次谐波(ω1=ω2)。我们用时间相关的Hartree-Fock方法处理了由于光激发电子与空穴之间的库仑相互作用而引起的激子效应。给出了线性和非线性光学磁化率的光谱相关性的结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Ultrafast Nonlinear Optics

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