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Electronic transport driven by collective light-matter coupled states in a quantum device

Physics

Electronic transport driven by collective light-matter coupled states in a quantum device

F. Pisani, D. Gacemi, et al.

Dive into the groundbreaking research by Francesco Pisani and colleagues as they unveil a quantum infrared detector that thrives in the ultra-strong light-matter coupling regime. This study paves the way for the next generation of optoelectronic devices, enhancing quantum cascade detectors through coherent electron-photon interactions.

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Playback language: English
Abstract
This paper explores a quantum infrared detector operating in the ultra-strong light-matter coupling regime driven by collective electronic excitations. Experiments are corroborated by a microscopic quantum theory that solves fermionic transport with strong collective electronic effects. The findings open new avenues for optoelectronic devices based on coherent electron-photon interaction, optimizing quantum cascade detectors in strongly non-perturbative coupling with light.
Publisher
Nature Communications
Published On
Jul 03, 2023
Authors
Francesco Pisani, Djamal Gacemi, Angela Vasanelli, Lianhe Li, Alexander Giles Davies, Edmund Linfield, Carlo Sirtori, Yanko Todorov
Tags
quantum infrared detector
light-matter coupling
collective electronic excitations
quantum cascade detectors
coherent interactions

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