# The role of vector potential coupling in hot electron cooling power in   bilayer graphene at low temperature

**Authors:** S. S. Kubakaddi

arXiv: 1706.08553 · 2017-10-25

## TL;DR

This study investigates the hot electron cooling power in bilayer graphene due to vector potential coupling, comparing it with deformation potential coupling, and predicts a crossover in dominance at high electron concentrations.

## Contribution

It introduces the analysis of vector potential coupling's role in electron cooling in bilayer graphene, highlighting a crossover in dominance and linking cooling power to phonon-limited mobility.

## Key findings

- F_VP is much smaller than F_DP at low n_s
- F_DP decreases faster than F_VP with increasing n_s
- Both F_VP and F_DP follow a T^4 law in the Bloch-Grüneisen regime

## Abstract

We have studied, in bilayer graphene (BLG), the hot electron cooling power $F_{VP} (T, n_s)$ due to acoustic phonons via vector potential (VP) coupling. It is calculated as a function of electron concentration $ns$ and temperature $T$ and compared with $F_{DP} (T, n_s)$ that due to deformation potential coupling. For the $n_s$ around $1\times10^{12} cm^{-2}$, $F_{VP} (T, n_s)$ is much smaller than $F_{DP} (T, n_s)$ . With increase of $n_s$, $F_{DP} (T, n_s)$ decreases faster than $F_{VP} (T, n_s)$ does. A cross over is predicted and dominant contribution of $F_{VP} (T, n_s)$ can be observed at large $n_s$. In the Bloch- Gr\"uneisen (BG) regime $F_{VP} (T, n_s)~ n_s^{-1/2}$ and $F_{DP} (T, n_s)~ n_s^{-3/2}$. Both $F_{VP} (T, n_s)$ and $F_{DP} (T, n_s)$ have the same $T$ dependence with $T^4$ power law in BG regime. Behaviour of $F_{DP} (T, n_s)~ n_s^{-3/2}$ and $T^4$ is in agreement with the experimental results at moderate $n_s$. Besides, in BG regime, we have predicted, for both the VP and DP coupling, a relation between $F(T, n_s)$ and the acoustic phonon limited mobility $\mu_p$, opening a new door to determine $\mu_p$ from the measurements of $F(T, n_s)$.

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Source: https://tomesphere.com/paper/1706.08553