The Tetrahedron Constellation Gravitational Wave Observatory would consist of four satellites positioned in space ...

TEGO revolutionizes gravitational wave detection with its tetrahedral spacecraft formation, improving sensitivity and ...

When astronomers detected the first long-predicted gravitational waves in 2015, it opened a whole new window into the ...

Scientists at Goethe University Frankfurt have identified a new way to probe the interior of neutron stars using ...

Rather than relying on a cheek swab or a little blood, however, these cosmic DNA tests utilize tiny ripples in the fabric of ...

This Collection is dedicated to the latest theoretical and technological advancement in lunar gravitational wave detection. We welcome Original Research articles as well as Reviews, Perspectives ...

This phenomenon, known as thermorefringent noise, could be significant in the low-frequency range of gravitational wave detection, necessitating a deeper understanding of the material constants ...

Scientists at the University of California, Riverside, have developed an unsupervised machine learning tool that identifies ...

Three U.S. researchers won this year’s Nobel Prize in physics for developing an observatory that made possible the detection of gravitational waves, ripples in space-time theorized by Albert ...

Moreover, TEGO's six laser links are simultaneously sensitive to six polarization modes of gravitational waves, enabling more effective detection of modes beyond GR predictions, such as scalar ...

Researchers have demonstrated a new, unsupervised machine learning approach to find new patterns in the auxiliary channel data of the Laser Interferometer Gravitational-Wave Observatory.

The most detailed map of the universe ever created using gravitational waves could reveal hidden black holes, merging supermassive black holes and even the large-scale structure of the cosmos.