Physicists have for months been buzzing about
the possible detection of gravitational waves — a finding that would confirm one of the key predictions of Albert Einstein's general theory of relativity.
Not exact matches
Two
detections of gravitational waves caused by collisions between supermassive black holes should be
possible each year using space - based instruments such as the Evolved Laser Interferometer Space Antenna (eLISA) detector that is due to launch in 2034, the researchers said.
The first clear
detection of primordial
gravitational waves allows us to peer back further than we thought
possible - and could unlock many cosmic secrets
The observation comes on the tail
of rumours
of a
possible detection of neutron stars merging, which could cause
gravitational waves we can observe on Earth.
Despite earlier reports
of a
possible detection, a joint analysis
of data from ESA's Planck satellite and the ground - based BICEP2 and Keck Array experiments has found no conclusive evidence
of primordial
gravitational waves.
The first direct
detections of gravitational waves in late 2015 were made
possible by a dedicated forty year quest to design, build, and operate LIGO, the Laser... Read more»
The first direct
detections of gravitational waves in late 2015 were made possible by a dedicated forty year quest to design, build, and operate LIGO, the Laser Interferometer Gravitational - wave
gravitational waves in late 2015 were made
possible by a dedicated forty year quest to design, build, and operate LIGO, the Laser Interferometer
Gravitational - wave
Gravitational -
wave Observatory.
Furthermore, the groundbreaking
detection wouldn't have been
possible without a significant overhaul
of the LIGO detectors, which first hunted for
gravitational waves between 2002 and 2010.