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Entangled photons enabled ultrafast stimulated Raman spectroscopy for molecular dynamics

Physics

Entangled photons enabled ultrafast stimulated Raman spectroscopy for molecular dynamics

J. J. Fan, Z. Ou, et al.

Discover groundbreaking research by Jiahao Joel Fan, Zhe-Yu Ou, and Zhedong Zhang that dives into the realm of quantum entanglement and its innovative application in stimulated Raman scattering with entangled photons. This pioneering work unveils a new spectroscopy approach, promising to reveal intricate details about complex materials through the unique interplay of molecular interactions and quantum technology.

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Playback language: English
Abstract
Quantum entanglement has emerged as a great resource for studying the interactions between molecules and radiation. We propose a new scheme of stimulated Raman scattering with entangled photons. A quantum ultrafast Raman spectroscopy is developed for condensed-phase molecules, to monitor the exciton populations and coherences. Analytic results are obtained, showing an entanglement-enabled time-frequency scale not attainable by classical light. The Raman signal presents an unprecedented selectivity of molecular correlation functions, as a result of the Hong-Ou-Mandel interference. Our work suggests a new paradigm of using an unconventional interferometer as part of spectroscopy, with the potential to unveil advanced information about complex materials.
Publisher
Light: Science & Applications
Published On
Authors
Jiahao Joel Fan, Zhe-Yu Ou, Zhedong Zhang
Tags
quantum entanglement
stimulated Raman scattering
entangled photons
quantum ultrafast Raman spectroscopy
molecular correlation
excitons
Hong-Ou-Mandel interference

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