Plasmon Amplification through Stimulated Emission at Terahertz Frequencies in Graphene

TL;DR

This paper demonstrates that graphene plasmons can be amplified at terahertz frequencies through stimulated emission, enabling the development of compact terahertz amplifiers and oscillators with high gain.

Contribution

It introduces a method for plasmon amplification in graphene via stimulated emission at terahertz frequencies, with detailed calculations of gain under various conditions.

Findings

Plasmon gain can exceed 10^4 cm^-1 in the 1-10 THz range.

Net gain occurs even with intraband scattering times shorter than 100 fs.

High gain enables extremely compact terahertz devices.

Abstract

We show that plasmons in two-dimensional graphene can have net gain at terahertz frequencies. The coupling of the plasmons to interband electron-hole transitions in population inverted graphene layers can lead to plasmon amplification through the process of stimulated emission. We calculate plasmon gain for different electron-hole densities and temperatures and show that the gain values can exceed $10^{4}$ cm$^{-1}$ in the 1-10 terahertz frequency range, for electron-hole densities in the $10^{9}$-$10^{11}$ cm$^{-2}$ range, even when plasmon energy loss due to intraband scattering is considered. Plasmons are found to exhibit net gain for intraband scattering times shorter than 100 fs. Such high gain values could allow extremely compact terahertz amplifiers and oscillators that have dimensions in the 1-10 $\mu$m range.