High-Energy Infrared Soliton Dynamics in Hollow Capillary Fibres

Abstract

We demonstrate soliton self-compression of high-energy 1800 nm laser pulses in hollow capillary fibres. This enables generation of infrared attosecond pulses and few- femtosecond pulses from the deep ultraviolet to the infrared with resonant dispersive wave emission.

Date
May 10, 2020 16:47
Event
CLEO, QELS_Fundamental Science 2020
Location
CLEO, QELS_Fundamental Science 2020, Washington, DC United States
Christian Brahms
Christian Brahms
Associate Professor
Federico Belli
Federico Belli
Research Fellow
John C. Travers
John C. Travers
Professor of Physics