When an intense laser pulse hits a stationary electron, it performs a trembling motion at the frequency of the light field.

A pulse of light sets the tempo in the material. Atoms in a crystalline sheet just a few atoms thick begin to move—not ...

The training facility, which constitutes the only one that Tokyo Electron has in the U.S., currently has 13 different labs, ...

Electrons can freeze into strange geometric crystals and then melt back into liquid-like motion under the right quantum ...

A research team has developed a synthetic microbial consortium that completely reduces soluble uranium [U(VI)] to insoluble U ...

Why Transmission Electron Microscopy Is Key to Cell Line Characterization, Upcoming Webinar Hosted by Xtalks ...

From next year, millions of consumers will be able to get electricity plans offering three hours of free power when the grid ...

Tescan expands its semiconductor portfolio with FemtoChisel, a next-generation femtosecond laser platform designed to enhance ...

From global energy security to the race to net zero, the challenges are mounting, and breakthroughs in science are arriving ...

Two novel 56π-electron fullerene derivatives, bearing bulky functional groups and named C60-TFB and C60-TFP, were developed ...

When an intense laser pulse hits an electron at rest, the latter performs a quiver motion with the frequency of the light ...

The autoimmune disorder destroys the body's ability to produce insulin. Some patients in experimental trials have gotten it back.