A new adaptive optics technology is set to transform gravitational-wave detection, allowing LIGO and future observatories like Cosmic Explorer to reach new heights. By correcting mirror distortions, ...

A team of physicists led by Jonathan Richardson of the University of California, Riverside, demonstrated how new optical ...

Galaxies, planets, black holes: to most people, everything about our Universe sounds and feels enormous. But while it's true ...

Gravity wave clouds form in wave-like patterns in sky, oftentimes resembling ripples in a body of water from a rock being thrown. These types of clouds are created from air in the atmosphere coming ...

The Laser Interferometer Gravitational-Wave Observatory, or LIGO, is one of the most powerful scientific equipment for detecting gravitational waves. Covering an area of 16 square kilometers, it also ...

LIGO’s adaptive optics system will push laser power beyond 1 megawatt, enhancing gravitational-wave detection and unlocking ...

Atomic clocks are more accurate than those used to define the second, suggesting the definition might need to change ...

Known as Noctilucent or night-shining clouds, twilight clouds are typically seen on Earth during the summer, but this time, ...

Gates is known for his work on supersymmetry and superstring theory, so it is not surprising that experimental evidence for ...