Add to ORKGInternational audienceThis article presents a computational study of the x-ray fluorescence induced by the irradiation of thin layered media by intense, short x-ray pulses. The treatment is based on a numerical solution of the Helmholtz wave-equation both for the pump and for the fluorescence signal. Consistently with a possible heating of the medium during the x-ray pulse, complex refractive indices are calculated at each time step from the results of an underlying treatment of atomic physics. In the context of an important core-hole production as a result of photoionization, we discuss the peculiarities of the resulting amplified fluorescence grazing emission and of the Bragg diffraction which can be realized at some angles inside a multi...
Radiation damage limits the resolution in imaging experiments. Damage is caused by energy deposited ...
A standard method of reconstructing the structure of a protein in its crystalline phase is by x-ray ...
International audienceThe theory of photoionization describing the interaction of x-ray free-electro...
International audienceThis article presents a computational study of the x-ray fluorescence induced ...
International audienceIt has been demonstrated that X-ray free-electron lasers (XFELs) allows to cre...
International audienceWe present an implementation of the Maxwell-Bloch (MB) formalism for the study...
The intensities within the focal spots of the output of recently developed X-ray sources based on fr...
The unique properties of x-ray free-electron lasers (XFELs), such as their immense brilliance, ultra...
The recent availability of X-ray Free Electron Lasers (XFELs) has opened a completely new and unexpl...
The recent development of free-electron lasers operating at XUV and X-ray wavelengths are proving vi...
We present a generalized theory based on one-dimensional Maxwell-Bloch equations to study the amplif...
Nonlinear spectroscopy in the x-ray domain is a promising technique to explore the dynamicsof elemen...
The spectrum of resonance fluorescence is calculated for a two-level system excited by an intense, u...
We present a generalized theory based on one-dimensionalMaxwell-Bloch equations to study the amplifi...
Radiation damage limits the resolution in imaging experiments. Damage is caused by energy deposited ...
A standard method of reconstructing the structure of a protein in its crystalline phase is by x-ray ...
International audienceThe theory of photoionization describing the interaction of x-ray free-electro...
International audienceThis article presents a computational study of the x-ray fluorescence induced ...
International audienceIt has been demonstrated that X-ray free-electron lasers (XFELs) allows to cre...
International audienceWe present an implementation of the Maxwell-Bloch (MB) formalism for the study...
The intensities within the focal spots of the output of recently developed X-ray sources based on fr...
The unique properties of x-ray free-electron lasers (XFELs), such as their immense brilliance, ultra...
The recent availability of X-ray Free Electron Lasers (XFELs) has opened a completely new and unexpl...
The recent development of free-electron lasers operating at XUV and X-ray wavelengths are proving vi...
We present a generalized theory based on one-dimensional Maxwell-Bloch equations to study the amplif...
Nonlinear spectroscopy in the x-ray domain is a promising technique to explore the dynamicsof elemen...
The spectrum of resonance fluorescence is calculated for a two-level system excited by an intense, u...
We present a generalized theory based on one-dimensionalMaxwell-Bloch equations to study the amplifi...
Radiation damage limits the resolution in imaging experiments. Damage is caused by energy deposited ...
A standard method of reconstructing the structure of a protein in its crystalline phase is by x-ray ...
International audienceThe theory of photoionization describing the interaction of x-ray free-electro...