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Intense ultraviolet-visible-infrared full-spectrum laser

Physics

Intense ultraviolet-visible-infrared full-spectrum laser

L. Hong, L. Liu, et al.

Discover the groundbreaking work by Lihong Hong and colleagues, where they unveil an intense ultraviolet-visible-infrared full-spectrum femtosecond laser source capable of generating a broad spectrum from 300 to 5000 nm. This innovative laser source promises to transform optical spectroscopy and has far-reaching applications across various scientific disciplines.

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Playback language: English
Abstract
A high-brightness ultrabroadband supercontinuum white laser is desirable for various fields of modern science. Here, we present an intense ultraviolet-visible-infrared full-spectrum femtosecond laser source (with 300–5000 nm 25 dB bandwidth) with 0.54 mJ per pulse. The laser is obtained by sending a 3.9 µm, 3.3 mJ mid-infrared pump pulse into a cascaded architecture of gas-filled hollow-core fiber, a bare lithium niobate crystal plate, and a specially designed chirped periodically poled lithium niobate crystal, under the synergic action of second and third order nonlinearities such as high harmonic generation and self-phase modulation. This full-spectrum femtosecond laser source can provide a revolutionary tool for optical spectroscopy and find potential applications in physics, chemistry, biology, material science, industrial processing, and environment monitoring.
Publisher
Light: Science & Applications
Published On
Jan 31, 2023
Authors
Lihong Hong, Liqiang Liu, Yuanyuan Liu, Junyu Qian, Renyu Feng, Wenkai Li, Yanyan Li, Yujie Peng, Yuxin Leng, Ruxin Li, Zhi-Yuan Li
Tags
supercontinuum laser
femtosecond laser source
ultraviolet-visible-infrared
nonlinear optics
high harmonic generation
optical spectroscopy
broadband light

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