MIT physicist 'Riccardo Comin' successfully mapped an electron’s shape in motion, unlocking breakthroughs in quantum physics, ...

For the first time, researchers have been able to measure the quantum state of electrons ejected from atoms that have absorbed high-energy light pulses. This is thanks to a new measurement technique ...

Here, we review our recent experimental results to measure local properties by utilizing the newly developed ‘marker’ grazing-incidence X-ray photon correlation spectroscopy (marker GIXPCS).

This report both complements and extends Technical Reports Series No. 277/2, Absorbed Dose Determination in Photon and Electron Beams - An International Code of Practice, IAEA Technical Reports Series ...

Attosecond time-resolved experiments have revealed the increasing importance of electronic correlations in the collective ...

Using Fourier-transform infrared (FTIR) spectroscopy, transmission electron microscopy (TEM ... is crucial for optimizing ...

Leveraging entanglement, quantum ultrafast stimulated Raman spectroscopy achieves a super-resolved spectrum with time-frequency scales beyond classical bounds. Additionally, multi-photon quantum ...

The Newton electron-multiplying EMCCD series is optimized for ultra-low light ... The Newton platform is ideal for challenging detection scenarios from UV to NIR, such as fast micro-spectroscopy ...