Add to ORKGWe characterize the phase shift induced by reflection on a multilayer mirror in the extreme UV range (80-93 eV) using two techniques: one based on high order harmonic generation and attosecond metrology (reconstruction of attosecond beating by interference of two-photon transitions), and a second based on synchrotron radiation and measurements of standing waves (total electron yield). We find an excellent agreement between the results from the two measurements and a flat group delay shift (+/- 40 as) over the main reflectivity peak of the mirror. (C) 2011 Optical Society of America</p
Measurement of transient optical properties (reflectivity and transmissivity) is performed widely in...
We study the temporal aspects of laser-assisted extreme ultraviolet (XUV) photoionization using atto...
Coherent, broadband pulses of extreme ultraviolet light provide a new and exciting tool for explorin...
We characterize the phase shift induced by reflection on a multilayer mirror in the extreme UV range...
EUV optics play a key role in attosecond science since only with higher photon energies is it possib...
A novel multilayer mirror was designed and fabricated based on a recently developed three-material t...
Attosecond science, photolithography, synchrotron, and free electron laser physics are new frontiers...
The emerging research field of attosecond science allows for the temporal investigation of one of th...
Abstract. We report on the study of multilayer mirrors designed to compress extreme-ultraviolet puls...
The advent of attosecond pulse duration light sources has enabled the study of fundamental light-mat...
We present an innovative beamline for extreme ultraviolet (XUV)-infrared (IR) pump-probe reflection ...
The experimental characterization of an aperiodic reflecting multilayer (ML) structure designed to r...
The development of multilayer optics for extreme ultraviolet (EUV) radiation has led to advancements...
Synopsis XUV multilayer mirrors serve as powerful reflective optics to control the spectrum and phas...
Wonisch A, Neuhäusler U, Kabachnik NM, et al. Design, fabrication, and analysis of chirped multilaye...
Measurement of transient optical properties (reflectivity and transmissivity) is performed widely in...
We study the temporal aspects of laser-assisted extreme ultraviolet (XUV) photoionization using atto...
Coherent, broadband pulses of extreme ultraviolet light provide a new and exciting tool for explorin...
We characterize the phase shift induced by reflection on a multilayer mirror in the extreme UV range...
EUV optics play a key role in attosecond science since only with higher photon energies is it possib...
A novel multilayer mirror was designed and fabricated based on a recently developed three-material t...
Attosecond science, photolithography, synchrotron, and free electron laser physics are new frontiers...
The emerging research field of attosecond science allows for the temporal investigation of one of th...
Abstract. We report on the study of multilayer mirrors designed to compress extreme-ultraviolet puls...
The advent of attosecond pulse duration light sources has enabled the study of fundamental light-mat...
We present an innovative beamline for extreme ultraviolet (XUV)-infrared (IR) pump-probe reflection ...
The experimental characterization of an aperiodic reflecting multilayer (ML) structure designed to r...
The development of multilayer optics for extreme ultraviolet (EUV) radiation has led to advancements...
Synopsis XUV multilayer mirrors serve as powerful reflective optics to control the spectrum and phas...
Wonisch A, Neuhäusler U, Kabachnik NM, et al. Design, fabrication, and analysis of chirped multilaye...
Measurement of transient optical properties (reflectivity and transmissivity) is performed widely in...
We study the temporal aspects of laser-assisted extreme ultraviolet (XUV) photoionization using atto...
Coherent, broadband pulses of extreme ultraviolet light provide a new and exciting tool for explorin...