Broadband mid-infrared coverage (2–17 μm) with few-cycle pulses via cascaded parametric processes

Qing Wang; Jinwei Zhang; Alexander Kessel; Nathalie Nagl; Vladimir Pervak; Oleg Pronin; Ka Fai Mak

doi:10.1364/OL.44.002566

Broadband mid-infrared coverage (2–17 μm) with few-cycle pulses via cascaded parametric processes

Qing Wang^*, Jinwei Zhang, Alexander Kessel, Nathalie Nagl, Vladimir Pervak, Oleg Pronin, Ka Fai Mak

^*此作品的通讯作者

光电学院

科研成果: 期刊稿件 › 文章 › 同行评审

50 引用（Scopus）

摘要

A myriad of existing and emerging applications could benefit from coherent and broadband mid-infrared (MIR) light. Yet, existing tabletop sources are often complex or sensitive to interferometric optical misalignment. Here we demonstrate a significantly simplified scheme of broadband MIR generation by cascading the intra-pulse difference-frequency generation process in a specific nonlinear crystal. This allows pulses generated directly from mode-locked lasers to be used without further nonlinear temporal compression. The system, together with the driving beam, can provide an ultra-broadband coherent radiation coverage ranging from 2 to 17 μm with femtosecond pulse durations. To the best of our knowledge, this is the first demonstration of cascaded DFG in the MIR range, which brings emerging time-domain spectroscopic techniques closer to real-world applications.

源语言	英语
页（从-至）	2566-2569
页数	4
期刊	Optics Letters
卷	44
期	10
DOI	https://doi.org/10.1364/OL.44.002566
出版状态	已出版 - 15 5月 2019

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abstract = "A myriad of existing and emerging applications could benefit from coherent and broadband mid-infrared (MIR) light. Yet, existing tabletop sources are often complex or sensitive to interferometric optical misalignment. Here we demonstrate a significantly simplified scheme of broadband MIR generation by cascading the intra-pulse difference-frequency generation process in a specific nonlinear crystal. This allows pulses generated directly from mode-locked lasers to be used without further nonlinear temporal compression. The system, together with the driving beam, can provide an ultra-broadband coherent radiation coverage ranging from 2 to 17 μm with femtosecond pulse durations. To the best of our knowledge, this is the first demonstration of cascaded DFG in the MIR range, which brings emerging time-domain spectroscopic techniques closer to real-world applications.",

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AU - Wang, Qing

AU - Zhang, Jinwei

AU - Kessel, Alexander

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AU - Pervak, Vladimir

AU - Pronin, Oleg

AU - Mak, Ka Fai

PY - 2019/5/15

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N2 - A myriad of existing and emerging applications could benefit from coherent and broadband mid-infrared (MIR) light. Yet, existing tabletop sources are often complex or sensitive to interferometric optical misalignment. Here we demonstrate a significantly simplified scheme of broadband MIR generation by cascading the intra-pulse difference-frequency generation process in a specific nonlinear crystal. This allows pulses generated directly from mode-locked lasers to be used without further nonlinear temporal compression. The system, together with the driving beam, can provide an ultra-broadband coherent radiation coverage ranging from 2 to 17 μm with femtosecond pulse durations. To the best of our knowledge, this is the first demonstration of cascaded DFG in the MIR range, which brings emerging time-domain spectroscopic techniques closer to real-world applications.

AB - A myriad of existing and emerging applications could benefit from coherent and broadband mid-infrared (MIR) light. Yet, existing tabletop sources are often complex or sensitive to interferometric optical misalignment. Here we demonstrate a significantly simplified scheme of broadband MIR generation by cascading the intra-pulse difference-frequency generation process in a specific nonlinear crystal. This allows pulses generated directly from mode-locked lasers to be used without further nonlinear temporal compression. The system, together with the driving beam, can provide an ultra-broadband coherent radiation coverage ranging from 2 to 17 μm with femtosecond pulse durations. To the best of our knowledge, this is the first demonstration of cascaded DFG in the MIR range, which brings emerging time-domain spectroscopic techniques closer to real-world applications.

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Broadband mid-infrared coverage (2–17 μm) with few-cycle pulses via cascaded parametric processes

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