Physicists develop innovative technique using carbon-dioxide lasers to detect radioactive materials from safe distances for ...

The technique relies on laser physics, Milchberg says—, specifically, the interaction between a laser ... cascading until “you make a little plasma,” he says. “It's almost like a little ...

In this week’s Science for All newsletter, Vasudevan Mukunth explains a new way to detect radioactive materials using ...

Seoul-based dermatologist Dr. Rhee Do-Young explains the trending Titanium Lifting laser treatment taking Korea and its ...

Scientists have long used Gaussian beams to study how light interacts with matter. These beams resemble plane waves and rely ...

Detecting radiation is a fundamental necessity for national security, but doing so effectively and at a distance is a tall ...

allowing for real-time observation of laser-plasma interactions. Professor Zulfikar Najmudin, Deputy Director of the John Adams Institute, highlighted that achieving 10MeV energy levels in such a ...

This will let them observe laser-plasma interactions in real time rather than only analyzing the aftermath. Professor Zulfikar Najmudin, Deputy Director of the John Adams Institute, highlighted ...

This will let them observe laser-plasma interactions in real time rather than only analysing the aftermath. If we can actually crack that, then it can have really big applications, especially in ...

The Plasma Burst Laser is a hitscan weapon that operates on durability rather than ammo (plus it packs quite an explosive punch). However, the Plasma Burst Laser isn’t the easiest item to come by.

To create their supersolid, the researchers fired a laser at a piece of gallium arsenide that had been shaped with special ridges. As the light struck the ridges, interactions between it and the ...