A Multiscale Method for Optical Responses of Nanostructures
- Autores: Gang Bao, Di Liu, Songting Luo
- Localización: Siam journal on applied mathematics, ISSN 0036-1399, Vol. 73, Nº 2, 2013, págs. 741-756
- Idioma: inglés
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Resumen
We introduce a new framework for the multiphysical modeling and multiscale computation of nano-optical responses. The semiclassical theory treats the evolution of the electromagnetic field and the motion of the charged particles self-consistently by coupling Maxwell equations with quantum mechanics. To overcome the numerical challenge of solving the high-dimensional many-body Schrödinger equations involved, we adopt the time-dependent current density functional theory. In the regime of linear responses, this leads to a linear system of equations determining the electromagnetic field as well as the current and electron densities simultaneously. A self-consistent multiscale method is proposed to deal with the well-separated space scales. Numerical examples are presented to illustrate the resonant condition
