# Unconventional Bloch-Gr\"{u}neisen scattering in hybrid Bose-Fermi   systems

**Authors:** Kristian Hauser A. Villegas, Meng Sun, Vadim M. Kovalev, Ivan G., Savenko

arXiv: 1902.01214 · 2019-09-04

## TL;DR

This paper introduces a new electron scattering mechanism in hybrid Bose-Fermi systems, where pair-of-bogolons dominate over phonons, affecting resistivity and potentially enabling electron pairing for superconductivity.

## Contribution

It develops a microscopic theory for pair-of-bogolons mediated scattering in hybrid systems, highlighting its dominance and unique temperature dependence.

## Key findings

- Pair-of-bogolons dominate electron scattering over phonons.
- Distinct temperature dependence of resistivity from conventional processes.
- Potential mechanism for electron pairing and superconductivity.

## Abstract

We report on the novel mechanism of electron scattering in hybrid Bose-Fermi systems consisting of a two-dimensional electron gas in the vicinity of an exciton condensate: We show that a pair-of-bogolons--mediated scattering proves to be dominating over the conventional acoustic phonon channel and over the single-bogolon scattering, even if the screening is taken into account. We develop a microscopic theory of this effect, focusing on GaAs and MoS$_2$ materials, and find the principal temperature dependence of resistivity, distinct from the conventional phonon--mediated processes. Further, we scrutinize parameters and suggest a way to design composite samples with predefined electron mobilities and propose a mechanism of electron pairing for superconductivity.

## Full text

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## Figures

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## References

53 references — full list in the complete paper: https://tomesphere.com/paper/1902.01214/full.md

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Source: https://tomesphere.com/paper/1902.01214