Add to ORKGAn efficient and tunable 200-600 nm source based on resonant radiation from ultrafast solitons in gas-filled hollow-core PCF is demonstrated. The influence of axially varying dispersion, controlled with a pressure gradient, is also explored
We report on the spectral broadening of similar to 1 mu J 30 fs pulses propagating in an Ar-filled h...
Hollow-core photonic-crystal fibre (HC-PCF) [1] provides a highly efficient means for investigating ...
Ultrafast supercontinuum generation in gas-filled waveguides is an enabling technology for many intr...
An efficient and tunable 200-600 nm source based on resonant radiation from ultrafast solitons in ga...
An efficient and tunable 176-550 nm source based on the emission of resonant dispersive radiation fr...
Ultrafast broadband ultraviolet radiation is of importance in spectroscopy and photochemistry, since...
High-energy, single-mode, coherent, ultrafast pulses of light -tunable from the vacuum-UV to the vis...
Unlike the capillaries conventionally used for gas-based spectral broadening of ultrashort (<100 fs)...
Resonant radiation phase-matched to a soliton in gas-filled hollow-core fibers is an efficient femto...
We report generation of an ultrafast supercontinuum extending into the mid-infrared in gas-filled si...
Although ultraviolet (UV) light is important in many areas of science and technology, there are very...
Soliton dynamics, coupled with either plasma formation or molecular modulation, enable the efficient...
Vacuum-UV radiation between 145-155 nm is generated from 40 fs, 800 nm 6.8 mu J pump p ulses in a 34...
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...
We report on the spectral broadening of similar to 1 mu J 30 fs pulses propagating in an Ar-filled h...
Hollow-core photonic-crystal fibre (HC-PCF) [1] provides a highly efficient means for investigating ...
Ultrafast supercontinuum generation in gas-filled waveguides is an enabling technology for many intr...
An efficient and tunable 200-600 nm source based on resonant radiation from ultrafast solitons in ga...
An efficient and tunable 176-550 nm source based on the emission of resonant dispersive radiation fr...
Ultrafast broadband ultraviolet radiation is of importance in spectroscopy and photochemistry, since...
High-energy, single-mode, coherent, ultrafast pulses of light -tunable from the vacuum-UV to the vis...
Unlike the capillaries conventionally used for gas-based spectral broadening of ultrashort (<100 fs)...
Resonant radiation phase-matched to a soliton in gas-filled hollow-core fibers is an efficient femto...
We report generation of an ultrafast supercontinuum extending into the mid-infrared in gas-filled si...
Although ultraviolet (UV) light is important in many areas of science and technology, there are very...
Soliton dynamics, coupled with either plasma formation or molecular modulation, enable the efficient...
Vacuum-UV radiation between 145-155 nm is generated from 40 fs, 800 nm 6.8 mu J pump p ulses in a 34...
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...
We report on the spectral broadening of similar to 1 mu J 30 fs pulses propagating in an Ar-filled h...
Hollow-core photonic-crystal fibre (HC-PCF) [1] provides a highly efficient means for investigating ...
Ultrafast supercontinuum generation in gas-filled waveguides is an enabling technology for many intr...