Monolayer indium selenide: an indirect bandgap material exhibits efficient brightening of dark excitons

Author:

Paylaga Naomi Tabudlong,Chou Chang-TiORCID,Lin Chia-Chun,Taniguchi TakashiORCID,Watanabe KenjiORCID,Sankar RamanORCID,Chan Yang-haoORCID,Chen Shao-YuORCID,Wang Wei-HuaORCID

Abstract

AbstractAtomically thin indium selenide (InSe) exhibits a sombrero-like valence band, leading to distinctive excitonic behaviors. It is known that the indirect band gap of atomically thin InSe leads to a weak emission from the lowest-energy excitonic state (A peak). However, the A peak emission of monolayer (ML) InSe was observed to be either absent or very weak, rendering the nature of its excitonic states largely unknown. Intriguingly, we demonstrate that ML InSe exhibits pronounced PL emission because of the efficient brightening of the momentum-indirect dark excitons. The mechanism is attributed to acoustic phonon-assisted radiative recombination facilitated by strong exciton-acoustic phonon coupling and extended wavefunction in momentum space. Systematic analysis of layer-, power-, and temperature-dependent PL demonstrates that a carrier localization model can account for the asymmetric line shape of the lowest-energy excitonic emission for atomically thin InSe. Our work reveals that atomically thin InSe is a promising platform for manipulating the tightly bound dark excitons in two-dimensional semiconductor-based optoelectronic devices.

Publisher

Springer Science and Business Media LLC

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