Measuring conditions in volatile clouds of superheated gases known as plasmas is central to pursuing greater scientific ...

Plasma, ionized gas and the fourth state of matter, makes up over 99% of the ordinary matter in the universe. Understanding its properties is critical for developing fusion energy sources, modeling ...

Laser beam interactions with plasma are at the forefront of contemporary high-energy density physics, offering transformative potential in areas ranging from inertial confinement fusion to advanced ...

Magnetised plasma dynamics and laser interactions represent a dynamic field at the intersection of plasma physics and high-energy laser technology. Researchers utilise intense laser pulses to generate ...

Plasma mirrors capable of withstanding the intensity of powerful lasers are being designed through an emerging machine ...

A meta-analysis of RCTs supports holmium laser as safer and more effective in a few key aspects compared with the plasma technique for initial management of NMIBC. Holmium laser resection of ...

Laser plasma acceleration is a potentially disruptive technology: It could be used to build far more compact accelerators and open up new use cases in fundamental research, industry and health.

British startup Tokamak Energy is testing a new type of laser that it says is “crucial” to stabilising fusion reactions — the same atom-fusing process that powers the Sun and promises to deliver ...

Measuring conditions in volatile clouds of superheated gases known as plasmas are central to pursuing greater scientific ...

Scientists in the Plasma Division at the U.S. Naval Research Laboratory (NRL) are building on a multi-year research effort that demonstrated the potential of an advanced laser technology that could ...