Scientists carefully positioned lasers to compress billions of electrons together, creating a beam five times more powerful ...

The integration of structured light beams and machine learning offers a new approach to environmental sensing, measuring ...

Current industrial CT scanners are not only massive and costly, but they produce images with millimeter scale resolution. The team’s laser-driven approach generates a much smaller X-ray source, ...

Boston biotech Beam Therapeutics has announced initial data from a phase 1/2 trial of its gene therapy for a genetic lung and liver disease, with no serious adverse events reported among the nine ...

HOUSTON, March 10 (Reuters) - Theft of truck loads of green coffee beans is surging in the United States, the world's largest importer of the commodity, as prices for the beans increased to all ...

Preliminary results from a small clinical trial suggest that a cutting-edge genetic medicine developed by Beam Therapeutics can repair the damaged DNA that gives rise to a rare liver and lung disorder ...

Physicists at SLAC National Accelerator Laboratory in the US have shattered the record for most powerful beam of electrons ... At the same time, a flash of light from a sapphire laser was introduced ...

The team began with a piece of gallium oxide designed with precise ridges to interact with an incoming laser beam. When the laser light struck the semiconductor’s ridges, it produced a quasiparticle ...

A small international team of nanotechnologists, engineers and physicists has developed a way to force laser light into becoming a supersolid. Their paper is published in the journal Nature.

Recently, a research team found a new way to control the magnetic reversal in a special material called Co 3 Sn 2 S 2, a Weyl semimetal. The team was led by Prof. Qu Zhe from the Hefei Institutes ...