Superconductivity, a phenomenon in which electricity flows without resistance, is considered the core of quantum computers ...
Researchers from the Molecular Physics and Physical Chemistry departments of the Fritz Haber Institute have shown how two ...
Synchronized infrared lasers steer molecules between structures, exposing clear spectral fingerprints and new ways to study ...
RAON laser application system. CLaSsy is a collinear laser spectroscopy system and RILIS is a laser ion source. Courtesy of IBS. A laser spectroscopy experiment that analyzes the energy structure of ...
Controlling and trapping molecules, units of a substance consisting of two or more chemically bound atoms, with laser light ...
A proposal involving a Northwest Missouri State University professor for research at a cutting-edge laboratory in France has ...
Abstract: Raman spectroscopy as a non-destructive optical technique, is extensively employed for material characterization. However, inherently weak scattering signals and device-specific noises ...
For over a decade, confusion over the size of the proton has held scientists back. Disagreeing measurements of the subatomic particle’s radius meant that scientists couldn’t test one of their key ...
The research team employs the two-color radiation of the unique in-house IR free-electron laser (IR-FEL) to control the population of different molecular conformations. - Fundamental insight: It is ...
The BASE collaboration at CERN has developed a new method to cool antiprotons more rapidly, enabling more precise measurements of their mass and magnetic moment. This breakthrough may help uncover ...
Hyperspectral unmixing methods are essential to exploit the capabilities of Raman spectroscopy for nondestructive, unbiased chemical characterization in a wide array of domains, from biology, ...