What question did this study set out to answer?

This research aims to explore terahertz amplification and lasing using graphene in a metal groove resonator.

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March 26, 2026

Terahertz Amplification and Lasing in a Metal Groove with Active Graphene

Key Points

This research aims to explore terahertz amplification and lasing using graphene in a metal groove resonator.
Theoretical analysis of terahertz lasing mechanisms.
Investigation of Fabry–Perot resonances in a metal-dielectric groove resonator.
Examination of the matching conditions between waveguides and graphene's admittance.
Terahertz lasing is predicted near the cut-off frequency of the resonator.
Conditions for lasing are met with achievable quasi-Fermi energy values.
Realistic charge carrier relaxation times in graphene enable effective lasing.

Abstract

Terahertz amplification and lasing via inversely populated graphene in a metal-dielectric groove resonator is studied theoretically. It is predicted that terahertz lasing arises in the vicinity of the cut-off frequency of the metal-dielectric groove resonator at Fabry–Perot resonances across the substrate slab due to the perfect matching of the characteristic admittance of the output waveguide and negative admittance of the terminal load (graphene on the dielectric substrate). Terahertz lasing arises for practical achievable value of the quasi-Fermi energy and realistic charge carrier relaxation time in graphene.

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Terahertz Amplification and Lasing in a Metal Groove with Active Graphene

Key Points

Abstract

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