Add to ORKGDisordered matter undergoes fluctuations on a wide range of time and length scales – using the coherence properties of the XFEL and “split-pulse X-ray Photon Correlation Spectroscopy”, the aim is to characterize such fluctuations, for example in non-crystalline or glassy materials, at the picosecond and nanometer scales
X-ray radiation has been used to study structural properties of materials for morethan a hundred yea...
X-ray scattering images collected on timescales shorter than rotation diffusion times using a (parti...
The success of nonlinear optics relies largely on pulse-to-pulse consistency. In contrast, covarianc...
In this chapter we discuss coherent X-ray scattering, photon statistics of speckle patterns, and X-r...
Mesoscale phenomena plays a critical role across phase transitions in functional materials. Fluctuat...
Coherent X-ray diffraction and X-ray Intensity Fluctuation Spectroscopy (XIFS) are ideal methods and...
The development of new modes at x-ray free electron lasers has inspired novel methods for studying f...
Hard X-ray free electron lasers allow for the first time to access dynamics of condensed matter samp...
We report an x-ray photon correlation spectroscopy method that exploits the recent development of th...
We show the results of speckle contrast analysis at the MID instrument of European XFEL in the hard ...
Note:We extended Intensity Fluctuation Spectroscopy (IFS) to atomic scale fluctuations using coheren...
The X-ray Correlation Spectroscopy instrument is dedicated to the study of dynamics in condensed mat...
We investigate structure and dynamics of concentration fluctuations in the binary glass former methy...
In the last decades, the commissioning of high-energy, third-generation synchrotronspresents new opp...
We discuss the complex dynamics in condensed matter studied with x-ray photon correlation spectrosco...
X-ray radiation has been used to study structural properties of materials for morethan a hundred yea...
X-ray scattering images collected on timescales shorter than rotation diffusion times using a (parti...
The success of nonlinear optics relies largely on pulse-to-pulse consistency. In contrast, covarianc...
In this chapter we discuss coherent X-ray scattering, photon statistics of speckle patterns, and X-r...
Mesoscale phenomena plays a critical role across phase transitions in functional materials. Fluctuat...
Coherent X-ray diffraction and X-ray Intensity Fluctuation Spectroscopy (XIFS) are ideal methods and...
The development of new modes at x-ray free electron lasers has inspired novel methods for studying f...
Hard X-ray free electron lasers allow for the first time to access dynamics of condensed matter samp...
We report an x-ray photon correlation spectroscopy method that exploits the recent development of th...
We show the results of speckle contrast analysis at the MID instrument of European XFEL in the hard ...
Note:We extended Intensity Fluctuation Spectroscopy (IFS) to atomic scale fluctuations using coheren...
The X-ray Correlation Spectroscopy instrument is dedicated to the study of dynamics in condensed mat...
We investigate structure and dynamics of concentration fluctuations in the binary glass former methy...
In the last decades, the commissioning of high-energy, third-generation synchrotronspresents new opp...
We discuss the complex dynamics in condensed matter studied with x-ray photon correlation spectrosco...
X-ray radiation has been used to study structural properties of materials for morethan a hundred yea...
X-ray scattering images collected on timescales shorter than rotation diffusion times using a (parti...
The success of nonlinear optics relies largely on pulse-to-pulse consistency. In contrast, covarianc...