Asymmetry of nonlocal dissipation: From drift-diffusion to hydrodynamics

K. S. Tikhonov, I. V. Gornyi, V. Yu Kachorovskii, A. D. Mirlin

Research output: Contribution to journalArticlepeer-review

3 Citations (Scopus)


We study dissipation in inhomogeneous two-dimensional electron systems. We predict a relatively strong current-induced spatial asymmetry in the heating of the electron and phonon systems, even if the inhomogeneity responsible for the electrical resistance is symmetric with respect to the current direction. We also show that the heat distributions in the hydrodynamic and impurity-dominated limits are essentially different. In particular, within a wide, experimentally relevant interval of driving fields, the dissipation profile in the hydrodynamic limit turns out to be asymmetric, and the characteristic spatial scale of the temperature distribution can be controlled by the driving field. By contrast, in the same range of parameters, impurity-dominated heating is almost symmetric, with the size of the dissipation region being independent of the field. This allows one to distinguish experimentally the hydrodynamic and impurity-dominated limits. Our results are consistent with recent experimental findings on transport and dissipation in narrow constrictions and quantum point contacts.

Original languageEnglish
Article number205430
JournalPhysical Review B
Issue number20
Publication statusPublished - 27 Nov 2019


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