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Hauptverfasser: Michail, Evripidis, Mann, Sander A., Rashidi, Kamyar, Lambert, Christoph, Menon, Vinod M., Alu, Andrea, Sfeir, Matthew Y.
Format: Preprint
Veröffentlicht: 2026
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2604.15066
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author Michail, Evripidis
Mann, Sander A.
Rashidi, Kamyar
Lambert, Christoph
Menon, Vinod M.
Alu, Andrea
Sfeir, Matthew Y.
author_facet Michail, Evripidis
Mann, Sander A.
Rashidi, Kamyar
Lambert, Christoph
Menon, Vinod M.
Alu, Andrea
Sfeir, Matthew Y.
contents Actively tunable photonic devices are vital for next-generation optoelectronics requiring rapid switching and high bandwidth. Although organic optoelectronic devices have found wide application, their use as optical modulators has been limited by low absorption in the critical near-infrared (NIR) region, slow response time, and weak nonlinearities. To address these limitations, we developed a scheme based on intermediate exciton-photon coupling in a NIR absorbing squaraine-dye based photonic structure. Using energy-momentum resolved pump-probe spectroscopy, we show that the sign and magnitude of the optical response of our system depends strongly on the energy detuning between the excitonic and photonic modes. These data are analyzed using temporal coupled-mode theory to show that near resonance, a distinct energy exchange process emerges in the cross-over regime between strong and weak light-matter coupling. This effect enables dynamical control over the photoinduced response, providing a pathway for broadband optical signal modulation extending into the NIR spectral region.
format Preprint
id arxiv_https___arxiv_org_abs_2604_15066
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Optical Modulation Due to Energy Exchange Between Photonic and Exciton Modes in the Intermediate Coupling Regime
Michail, Evripidis
Mann, Sander A.
Rashidi, Kamyar
Lambert, Christoph
Menon, Vinod M.
Alu, Andrea
Sfeir, Matthew Y.
Optics
Materials Science
Actively tunable photonic devices are vital for next-generation optoelectronics requiring rapid switching and high bandwidth. Although organic optoelectronic devices have found wide application, their use as optical modulators has been limited by low absorption in the critical near-infrared (NIR) region, slow response time, and weak nonlinearities. To address these limitations, we developed a scheme based on intermediate exciton-photon coupling in a NIR absorbing squaraine-dye based photonic structure. Using energy-momentum resolved pump-probe spectroscopy, we show that the sign and magnitude of the optical response of our system depends strongly on the energy detuning between the excitonic and photonic modes. These data are analyzed using temporal coupled-mode theory to show that near resonance, a distinct energy exchange process emerges in the cross-over regime between strong and weak light-matter coupling. This effect enables dynamical control over the photoinduced response, providing a pathway for broadband optical signal modulation extending into the NIR spectral region.
title Optical Modulation Due to Energy Exchange Between Photonic and Exciton Modes in the Intermediate Coupling Regime
topic Optics
Materials Science
url https://arxiv.org/abs/2604.15066