Dynamics of atoms in strong laser fields I: A quasi analytical model in momentum space based on a Sturmian expansion of the interacting nonlocal Coulomb potential

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• 作者：F. Ongonwou^a ; ^{fred.ongonwou@gmail.com} ; H.M. Tetchou Nganso^b ; ^{htetchou@yahoo.com} ; T.B. Ekogo^a ; ^{tekogo@yahoo.fr} ; M.G. Kwato Njock^b ; ^{mkwato@yahoo.com}
• 关键词：Time-dependent Schrö ; dinger equation ; Momentum space ; Sturmian basis sets ; Nonlocal Coulomb potential
• 刊名：Annals of Physics
• 出版年：2016
• 出版时间：December 2016
• 年：2016
• 卷：375
• 期：Complete
• 页码：471-490
• 全文大小：897 K
• 卷排序：375

文摘

In this study we present a model that we have formulated in the momentum space to describe atoms interacting with intense laser fields. As a further step, it follows our recent theoretical approach in which the kernel of the reciprocal-space time-dependent Schrödinger equation (TDSE) is replaced by a finite sum of separable potentials, each of them supporting one bound state of atomic hydrogen (Tetchou Nganso et al. 2013). The key point of the model is that the nonlocal interacting Coulomb potential is expanded in a Coulomb Sturmian basis set derived itself from a Sturmian representation of Bessel functions of the first kind in the position space. As a result, this decomposition allows a simple spectral treatment of the TDSE in the momentum space. In order to illustrate the credibility of the model, we have considered the test case of atomic hydrogen driven by a linearly polarized laser pulse, and have evaluated analytically matrix elements of the atomic Hamiltonian and dipole coupling interaction. For various regimes of the laser parameters used in computations our results are in very good agreement with data obtained from other time-dependent calculations.