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Noise Investigation Of Deep-Uv Dispersive Wave Generation In Gas-Filled Fiber Utilizing Nonlinear Pulse Compression

Callum R. Smith,Asbjorn Moltke,Abubakar I. Adamu,Mattia Michieletto,Patrick Bowen,Peter M. Moselund,Christos Markos,Ole Bang

2020 CONFERENCE ON LASERS AND ELECTRO-OPTICS (CLEO)(2020)

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Abstract
Deep-UV radiation is achieved through dispersive wave generation in an argon-filled anti-resonant fiber utilizing a nonlinearly compressed 1030nm pump. Relative intensity noise is characterized at 280nm, with 1.6% achieved for optimal argon-pressure and pump parameters. (C) 2020 The Author(s)
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gas-filled fiber utilizing nonlinear pulse compression,deep-UV radiation,argon-filled anti-resonant fiber,nonlinearly compressed 1030nm pump,relative intensity noise,optimal argon-pressure,noise investigation,deep-UV dispersive wave generation,size 1030.0 nm,size 280.0 nm
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