Broadband dynamic spectrum characterization based on gating-assisted electro-optic time lens

A broadband real-time optical spectrum characterization technique is proposed based on a gating-assisted electro-optic time lens. Operating at the repetition rate of 10-MHz, a 10-dB spectral measurement range of more than 70-nm is achieved with a resolution of up to 42.5-pm in the near-infrared regi...

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Veröffentlicht in:	Applied physics letters 2019-01, Vol.114 (2)
Hauptverfasser:	Wei, Yuan, Li, Bowen, Feng, Pingping, Kang, Jiqiang, Wong, Kenneth K. Y.
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied physics Broadband Fourier transforms Lenses Optical frequency Optics Rangefinding Real time Spectra
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creator	Wei, Yuan Li, Bowen Feng, Pingping Kang, Jiqiang Wong, Kenneth K. Y.
description	A broadband real-time optical spectrum characterization technique is proposed based on a gating-assisted electro-optic time lens. Operating at the repetition rate of 10-MHz, a 10-dB spectral measurement range of more than 70-nm is achieved with a resolution of up to 42.5-pm in the near-infrared regime. To demonstrate its performance in applications, real-time spectral observation of broadband wavelength sweeping of a Fourier domain mode-locked laser and a 32.4-GHz optical frequency comb is presented. Furthermore, a detailed comparison between dispersive Fourier transform and the time lens based spectral analysis technique for frequency comb measurements is made from both simulation and experiment. With its broadband performance, this technique can provide widespread applications requiring real-time spectral analysis.
doi_str_mv	10.1063/1.5079424
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subjects	Applied physics Broadband Fourier transforms Lenses Optical frequency Optics Rangefinding Real time Spectra
title	Broadband dynamic spectrum characterization based on gating-assisted electro-optic time lens
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