$Optical analogy for temporal diffraction in tight-binding lattice$

Optical analogy for temporal diffraction in tight-binding lattice

The wave propagating through the temporal boundary has attracted considerable attention in the past few years because of the potential applications of time-varying systems in the optics community. However, temporal diffraction of light remains to be investigated, because free space is non-dispersive...

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Veröffentlicht in:	Optics letters 2023-08, Vol.48 (16), p.4265-4268
Hauptverfasser:	Wu, Kedi, Wang, Guo Ping
Format:	Artikel
Sprache:	eng
Schlagworte:	Coupling coefficients Light diffraction Mathematical analysis Wave diffraction Wave propagation Waveguides
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container_title	Optics letters
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creator	Wu, Kedi Wang, Guo Ping
description	The wave propagating through the temporal boundary has attracted considerable attention in the past few years because of the potential applications of time-varying systems in the optics community. However, temporal diffraction of light remains to be investigated, because free space is non-dispersive. Here, we theoretically provide the analytical expressions for the temporal diffraction contributions of electron waves across the temporal boundary between the free space and a dispersive medium. With the help of coupled waveguide arrays, temporal diffraction is analogously observed by the optical platform. The optical analogy results confirm the theoretical predictions of the temporal diffraction wave at the temporal boundary. By changing the permittivity of the waveguides, implying the coupling coefficient is modified, the temporal diffraction angle is tuned. Our analysis and observations of temporal diffraction of dispersive media have great potential in time-varying physics, signal processing, and photonics communications.
doi_str_mv	10.1364/OL.497636
format	Article
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However, temporal diffraction of light remains to be investigated, because free space is non-dispersive. Here, we theoretically provide the analytical expressions for the temporal diffraction contributions of electron waves across the temporal boundary between the free space and a dispersive medium. With the help of coupled waveguide arrays, temporal diffraction is analogously observed by the optical platform. The optical analogy results confirm the theoretical predictions of the temporal diffraction wave at the temporal boundary. By changing the permittivity of the waveguides, implying the coupling coefficient is modified, the temporal diffraction angle is tuned. 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subjects	Coupling coefficients Light diffraction Mathematical analysis Wave diffraction Wave propagation Waveguides
title	Optical analogy for temporal diffraction in tight-binding lattice
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