News

What occurs when the universe plays a cosmic curveball, breaking down long-standing assumptions about how black holes form?
The massive black hole has been dubbed GW231123. Its unusual size and behavior is challenging scientists' understanding of ...
Using ripples in space-time predicted by Einstein, a team of researchers has detected a cosmic merger of unprecedented ...
The LIGO Hanford Observatory near the Tri-Cities and its twin in Louisiana detected ripples of time and space passing through ...
To date, the collaboration has detected dozens of merger events since its first Nobel Prize-winning discovery. Early detected ...
The LIGO-Virgo-KAGRA (LVK) collaboration has announced a groundbreaking discovery in the field of gravitational wave ...
New gravitational wave findings from the LIGO-Virgo-KAGRA Collaboration report the discovery of the largest black hole merger ...
Gravitational-wave detectors have captured their biggest spectacle yet: two gargantuan, rapidly spinning black holes likely ...
The Laser Interferometer Gravitational-wave Observatory (LIGO) is no stranger to making history and breaking records. In 2015 ...
Scientists have detected gravitational waves from a black hole collision, revealing one with an unexpected mass that challenges existing theories about star death.
An international team of physicists discovered the largest-ever merger of 2 black holes through a phenomenon known as gravitational waves.
Two colossal black holes among the most massive ever seen collided in deep space, creating gravitational waves that rippled across the cosmos and shook the foundations of astrophysical theory.