We study the homogenization of a Schrodinger equation in a periodic medium
with a time dependent potential. This is a model for semiconductors excited by
an external electromagnetic wave. We prove that, for a suitable choice of
oscillating (both in time and space) potential, one can partially transfer
electrons from one Bloch band to another. This justifies the famous "Fermi
golden rule" for the transition probability between two such states which is at
the basis of various optical properties of semiconductors. Our method is based
on a combination of classical homogenization techniques (two-scale convergence
and suitable oscillating test functions) and of Bloch waves theory

Allaire, Gregoire

Vanninathan, M.

English

arXiv

International audienceWe study the homogenization of a Schrodinger equation in a periodic medium with a time dependent potential. This is a model for semiconductors excited by an external electromagnetic wave. We prove that, for a suitable choice of oscillating (both in time and space) potential, one can partially transfer electrons from one Bloch band to another. This justifies the famous "Fermi golden rule" for the transition probability between two such states which is at the basis of various optical properties of semiconductors. Our method is based on a combination of classical homogenization techniques (two-scale convergence and suitable oscillating test functions) and of Bloch waves theory

Homogenization of the Schrodinger equation with a time oscillating potential

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