Add to ORKGVacuum-UV radiation between 145-155 nm is generated from 40 fs, 800 nm 6.8 mu J pump p ulses in a 34 mu m core-diameter kagome-PCF filled with 20-25 bar neon. Simulations confirm the mechanism as resonant dispersive-wave emission
We report generation of an ultrafast supercontinuum extending into the mid-infrared in gas-filled si...
Gas-filled hollow-core photonic crystal fibre is being used to generate ever wider super-continuum s...
We report the demonstration of a pulsed atomic lead (Pb) vapor-based vacuum ultraviolet frequency co...
We numerically model the generation, by continuous emission of dispersive waves in an Ar-filled holl...
We numerically model the generation, by continuous emission of dispersive waves in an Ar-filled holl...
An efficient and tunable 176-550 nm source based on the emission of resonant dispersive radiation fr...
An efficient and tunable 200-600 nm source based on resonant radiation from ultrafast solitons in ga...
An efficient and tunable 200-600 nm source based on resonant radiation from ultrafast solitons in ga...
We detail the steps towards a tunable vacuum ultraviolet light source for time-– and angle–resolved ...
We report on the generation of a three-octave-wide supercontinuum extending from the vacuum ultravio...
In this work, we numerically investigate an experimentally feasible design of a tapered Ne-filled ho...
Although ultraviolet (UV) light is important in many areas of science and technology, there are very...
Hollow-core photonic-crystal fibre (HC-PCF) [1] provides a highly efficient means for investigating ...
International audienceWe report on the first deep-ultraviolet/ultraviolet (DUV/UV) emission using a ...
We report on the complete temporal characterization of ultrashort pulses, generated by resonant disp...
We report generation of an ultrafast supercontinuum extending into the mid-infrared in gas-filled si...
Gas-filled hollow-core photonic crystal fibre is being used to generate ever wider super-continuum s...
We report the demonstration of a pulsed atomic lead (Pb) vapor-based vacuum ultraviolet frequency co...
We numerically model the generation, by continuous emission of dispersive waves in an Ar-filled holl...
We numerically model the generation, by continuous emission of dispersive waves in an Ar-filled holl...
An efficient and tunable 176-550 nm source based on the emission of resonant dispersive radiation fr...
An efficient and tunable 200-600 nm source based on resonant radiation from ultrafast solitons in ga...
An efficient and tunable 200-600 nm source based on resonant radiation from ultrafast solitons in ga...
We detail the steps towards a tunable vacuum ultraviolet light source for time-– and angle–resolved ...
We report on the generation of a three-octave-wide supercontinuum extending from the vacuum ultravio...
In this work, we numerically investigate an experimentally feasible design of a tapered Ne-filled ho...
Although ultraviolet (UV) light is important in many areas of science and technology, there are very...
Hollow-core photonic-crystal fibre (HC-PCF) [1] provides a highly efficient means for investigating ...
International audienceWe report on the first deep-ultraviolet/ultraviolet (DUV/UV) emission using a ...
We report on the complete temporal characterization of ultrashort pulses, generated by resonant disp...
We report generation of an ultrafast supercontinuum extending into the mid-infrared in gas-filled si...
Gas-filled hollow-core photonic crystal fibre is being used to generate ever wider super-continuum s...
We report the demonstration of a pulsed atomic lead (Pb) vapor-based vacuum ultraviolet frequency co...