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Supercontinuum generation in the vacuum ultraviolet through dispersive-wave and soliton-plasma interaction in a noble-gas-filled hollow-core photonic crystal fiber

机译：在惰性气体填充的空心光子晶体光纤中通过色散波和孤子 - 等离子体相互作用在真空紫外中产生超连续谱

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We report on the generation of a three-octave-wide supercontinuum extending from the vacuum ultraviolet (VUV) to the near infrared, spanning at least 113-1000 nm (i.e., 11-1.2eV), in He-filled hollow-core kagome-style photonic crystal fiber. Numerical simulations confirm that the main mechanism is an interaction between dispersive-wave emission and plasma-induced blue-shifted soliton recompression around the fiber zero dispersion frequency. The VUV part of the supercontinuum, the modeling of which proves to be coherent and possesses a simple phase structure, has sufficient bandwidth to support single-cycle pulses of 500 asec duration. We also demonstrate, in the same system, the generation of narrower-band VUV pulses through dispersive-wave emission, tunable from 120 to 200 nm with efficiencies exceeding 1% and VUV pulse energies in excess of 50 nJ.

机译：我们报告了在充满He的空心铁丝网中从真空紫外（VUV）延伸到近红外，跨越至少113-1000 nm（即11-1.2eV）的三倍频宽超连续谱的生成。型光子晶体光纤。数值模拟证实，主要机制是色散波发射与等离子体诱导的光纤零色散频率附近的蓝移孤子再压缩之间的相互作用。超连续谱的VUV部分（其建模被证明是连贯的并且具有简单的相位结构）具有足够的带宽以支持500 asec持续时间的单周期脉冲。我们还演示了在同一系统中，通过色散波产生的窄带VUV脉冲的产生，可将其从120 nm调谐到200 nm，效率超过1％，VUV脉冲能量超过50 nJ。

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Ermolov, A.; Mak, K.; Frosz, M.; Travers, J.; Russell, P.;
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年度 2015
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1. Supercontinuum generation in the vacuum ultraviolet through dispersive-wave and soliton-plasma interaction in a noble-gas-filled hollow-core photonic crystal fiber [J] . Ermolov A., Mak K. F., Frosz M. H., Physical Review, A. Atomic, molecular, and optical physics . 2015,第3aPta1期

机译：在稀有气体填充的空心光子晶体光纤中，通过色散和孤子-等离子体相互作用在真空紫外中产生超连续谱
2. Femtosecond supercontinuum generation around 1560 nm in hollow-core photonic crystal fibers filled with carbon tetrachloride [J] . Applied optics . 2020,第12期

机译：在填充有碳四氯化碳的空心芯光子晶体纤维中，Femtosecond超连续产生约1560nm
3. Supercontinuum generation in the irregular point of hollow-core photonic crystal fiber [J] . Xiangwei Shen, Jinhui Yuan, Xinzhu Sang, Optik: Zeitschrift fur Licht- und Elektronenoptik: = Journal for Light-and Electronoptic . 2014,第16期

机译：中空光子晶体光纤不规则点的超连续谱产生
4. Supercontinuum generation in hollow-core methanol-silica based photonic crystal fiber: computational model and analysis [C] . Pooja Chauhan, Ajeet Kumar, Yogita Kalra Conference on Photonic Fiber and Crystal Devices: Advances in Materials and Innovations in Device Applications . 2020

机译：中空核心甲醇基二氧化硅光子晶体纤维超强素：计算模型和分析
5. Photonic crystal fibers: Characterization and supercontinuum generation. [D] . Zhu, Zhaoming. 2004

机译：光子晶体光纤：表征和超连续谱。
6. Ultraviolet-visible non-supercontinuum ultrafast source enabled by switching single silicon strand-like photonic crystal fibers with a varying core [O] . Haohua Tu, Stephen A. Boppart -1

机译：紫外线可见的非超连续谱超快光源通过切换具有可变纤芯的单股硅绞线状光子晶体光纤来实现
7. Supercontinuum generation in the vacuum ultraviolet through dispersive-wave and soliton-plasma interaction in noble-gas-filled hollow-core photonic crystal fiber [O] . Ermolov, Alexey, Mak, Ka Fai, Frosz, Michael H., 2015

机译：在真空紫外线中产生超连续谱惰性气体填充中的色散波和孤子 - 等离子体相互作用空心光子晶体光纤

Supercontinuum generation in the vacuum ultraviolet through dispersive-wave and soliton-plasma interaction in a noble-gas-filled hollow-core photonic crystal fiber

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