Hydrodynamic Equation for the Breakdown of the Quantum Hall Effect in a Uniform Current

Abstract

The hydrodynamic equation for the spatial and temporal evolution of the electron temperature Te in the breakdown of the quantum Hall effect at even-integer filling factors in a uniform current density j is derived from the Boltzmann-type equation, which takes into account electron-electron and electron-phonon scatterings. The derived equation has a drift term, which is proportional to j and to the first spatial derivative of Te. Applied to the spatial evolution of Te in a sample with an abrupt change of the width along the current direction, the equation gives a distinct dependence on the current direction as well as a critical relaxation, in agreement with the recent experiments.

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