J. N. Moore, A. Kamiyama, T. Mano, G. Yusa
Published 2022-12-24Version 1
Research focused on heat transport in the quantum Hall (QH) edge channel has successfully addressed fundamental theoretical questions surrounding the QH physics. However, the picture of the edge channel is complicated by the phenomenon of energy dissipation out of the edge, and theories treating this dissipation are lacking. More experimental data is also needed to determine the coupling mechanism by which energy leaves the edge channel. We developed a method to map the heat transport in the QH edge to study the dissipation of heat. We locally heated the QH edge and locally detected the temperature increase while continuously varying the distance between heater and thermometer. We thereby obtained the thermal decay length of the edge state, which we found to depend on magnetic field strength.
Ballistic hot-electron transport in a quantum Hall edge channel defined by a double gate
Heat transport through a Josephson junction
Magnetic-field asymmetry of nonlinear thermoelectric and heat transport
![QR code for arXiv:2212.12628 [cond-mat.mes-hall]](http://oss.arxitics.com/images/favicon.svg)