Optically Tunable Many‐Body Exciton‐Phonon Quantum Interference

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Abstract: This study introduces a novel paradigm for achieving widely tunable many‐body Fano quantum interference in low‐dimensional semiconducting nanostructures, beyond the conventional requirement of closely matched energy levels between discrete and continuum states observed in atomic Fano systems. Leveraging Floquet engineering, the remarkable tunability of Fano lineshapes is demonstrated, even when the original discrete and continuum states are separated by over 1 eV. Specifically, by controlling the quantum pathways of discrete phonon Raman scattering using femtosecond laser pulses, the Raman intermediate states across the excitonic Floquet band are tuned. This manipulation yields continuous transitions of Fano lineshapes from antiresonance to dispersive and to symmetric Lorentzian profiles, accompanied by significant variations in Fano parameter q and Raman intensity spanning 2 orders of magnitude. A subtle shift in the excitonic Floquet resonance is further shown, achieved by controlling the intensity of the femtosecond laser, which profoundly modifies quantum interference strength from destructive to constructive interference. The study reveals the crucial roles of Floquet engineering in coherent light‐matter interactions and opens up new avenues for coherent control of Fano quantum interference over a broad energy spectrum in low‐dimensional semiconducting nanostructures.

Location: Deutsche Nationalbibliothek Frankfurt am Main

Extent: Online-Ressource

Language: Englisch

Bibliographic citation: Optically Tunable Many‐Body Exciton‐Phonon Quantum Interference ; day:29 ; month:08 ; year:2024 ; extent:10
Advanced science ; (29.08.2024) (gesamt 10)

Creator: Chang, Si‐Jie
Huang, Po‐Chun
Su, Jia‐Sian
Hsieh, Yu‐Wei
Quiroz Reyes, Carlos Jose
Fan, Ting‐Hsuan
Sun, Han‐Sheng
Nguyem, Ai‐Phuong
Liu, Te‐I
Cheng, Ho‐Wen
Lin, Ching‐Wei
Hayashi, Michitoshi
Yong, Chaw‐Keong

DOI: 10.1002/advs.202404741

URN: urn:nbn:de:101:1-2408291440317.969084371968

Rights: Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.

Last update: 15.08.2025, 7:29 AM CEST

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Associated

Chang, Si‐Jie
Huang, Po‐Chun
Su, Jia‐Sian
Hsieh, Yu‐Wei
Quiroz Reyes, Carlos Jose
Fan, Ting‐Hsuan
Sun, Han‐Sheng
Nguyem, Ai‐Phuong
Liu, Te‐I
Cheng, Ho‐Wen
Lin, Ching‐Wei
Hayashi, Michitoshi
Yong, Chaw‐Keong

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Optically Tunable Many‐Body Exciton‐Phonon Quantum Interference

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Other Objects (12)

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Piezoelectric exciton acoustic-phonon coupling in single quantum dots

Exciton-phonon coupling in monolayers of transition metal dichalcogenides

Phonon-induced disorder in dynamics of optically pumped metals from nonlinear electron-phonon coupling

Optically addressed modulator for tunable spatial polarization control

Processing light with an optically tunable mechanical memory

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Tuning the Fröhlich exciton-phonon scattering in monolayer MoS2

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Phonon‐Bottleneck Enhanced Exciton Emission in 2D Perovskites

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Exciton-phonon coupling in monolayers of transition metal dichalcogenides

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