Tokamak, the artificial sun that defies the rules of the cosmos, is a sphere at 100 million degrees. It embodies our quest ...

"Some of the extreme ultraviolet light above active regions flickers erratically for a few hours before a solar flare," ...

Chinese scientists have unveiled a superconducting linear plasma device designed to test materials for nuclear fusion ...

Researchers and engineers who require vacuum environments for their projects can simplify their design process and achieve better results by collaborating with the technology experts at Agilent ...

"Combining novel technologies like cold plasma and 3D printing for the production of better plant protein and biomaterial ...

Fusion energy is often called the “holy grail” of energy because of its incredible potential. Unlike fossil fuels, fusion ...

South Korea's KSTAR achieves a major milestone in nuclear fusion, reaching 120 million ºC to develop green energy, offering a ...

The process involves injecting finely ground iron ore powder into a superheated furnace, causing an explosive chemical reaction. This creates glowing iron droplets that collect at the furnace’s bottom ...

NASA's Solar Dynamics Observatory captured imagery of superheated plasma and 3 prominences in a magnetic field dance with the Sun. #shorts ...

To achieve this, scientists need to create a superheated plasma, a state of matter where electrons are stripped from atoms, reaching temperatures exceeding 150 million degrees Celsius. “But ...

To achieve this, scientists need to create a superheated plasma, a state of matter where electrons are stripped from atoms, reaching temperatures exceeding 150 million degrees Celsius.

Laser-produced plasmas have been used to create short bursts of x-rays and to accelerate particles — so-called plasma-based accelerators. Laser produced plasmas are also useful for recreating ...