CONDENSED MATTER

Slow interband recombination promotes an anomalous thermoelectric response of the $p-n$ junctions

A. S. Petrov, D. A. Svintsov

Laboratory of 2D Materials for Optoelectronics, Moscow Institute of Physics and Technology (National Research University), Dolgoprudnyi, Moscow region, 141700 Russia

Abstract: Thermoelectric effects in $p-n$ junctions are widely used for energy generation with thermal gradients, creation of compact Peltier refrigerators and, most recently, for sensitive detection of infrared and terahertz radiation. It is conventionally assumed that electrons and holes creating thermoelectric current are in equilibrium and share the common quasi-Fermi level. We show that lack of interband equilibrium results in an anomalous sign and magnitude of thermoelectric voltage developed across the $p-n$ junction. The anomalies appear provided the diffusion length of minority carriers exceeds the size of hot spot at the junction. Normal magnitude of thermoelectric voltage is partly restored if interband tunneling at the junction is allowed. The predicted effects can be relevant to the cryogenically cooled photodetectors based on bilayer graphene and mercury cadmium telluride quantum wells.

Received: 22.11.2024
Revised: 08.12.2024
Accepted: 09.12.2024

DOI: 10.31857/S0370274X25020109

 English version: Journal of Experimental and Theoretical Physics Letters, 2025, 121:3, 214–219