Coherent Electronic Transport in Periodic Crystals

Eric Cancès; Clotilde Fermanian Kammerer; Antoine Levitt; Sami Siraj-Dine

doi:10.1007/s00023-021-01026-3

Coherent Electronic Transport in Periodic Crystals

Eric Cancès
, Clotilde Fermanian Kammerer
, Antoine Levitt
, Sami Siraj-Dine

Université de PARIS XII
École des ponts

Research output: Contribution to journal › Article › peer-review

Abstract

We consider independent electrons in a periodic crystal in their ground state, and turn on a uniform electric field at some prescribed time. We rigorously define the current per unit volume and study its properties using both linear response and adiabatic theory. Our results provide a unified framework for various phenomena such as the quantization of Hall conductivity of insulators with broken time-reversibility, the ballistic regime of electrons in metals, Bloch oscillations in the long-time response of metals, and the static conductivity of graphene. We identify explicitly the regime in which each holds.

Original language	English
Pages (from-to)	2643-2690
Number of pages	48
Journal	Annales Henri Poincare
Volume	22
Issue number	8
DOIs	https://doi.org/10.1007/s00023-021-01026-3
Publication status	Published - 1 Aug 2021

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AU - Cancès, Eric

AU - Fermanian Kammerer, Clotilde

AU - Levitt, Antoine

AU - Siraj-Dine, Sami

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N2 - We consider independent electrons in a periodic crystal in their ground state, and turn on a uniform electric field at some prescribed time. We rigorously define the current per unit volume and study its properties using both linear response and adiabatic theory. Our results provide a unified framework for various phenomena such as the quantization of Hall conductivity of insulators with broken time-reversibility, the ballistic regime of electrons in metals, Bloch oscillations in the long-time response of metals, and the static conductivity of graphene. We identify explicitly the regime in which each holds.

AB - We consider independent electrons in a periodic crystal in their ground state, and turn on a uniform electric field at some prescribed time. We rigorously define the current per unit volume and study its properties using both linear response and adiabatic theory. Our results provide a unified framework for various phenomena such as the quantization of Hall conductivity of insulators with broken time-reversibility, the ballistic regime of electrons in metals, Bloch oscillations in the long-time response of metals, and the static conductivity of graphene. We identify explicitly the regime in which each holds.

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DO - 10.1007/s00023-021-01026-3

M3 - Article

AN - SCOPUS:85102248266

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JO - Annales Henri Poincare

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ER -

Coherent Electronic Transport in Periodic Crystals

Abstract

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