UNIVERSITY PARK, Pa. — On Oct. 28, LIGO and Virgo — an international collaboration of gravitational-wave detectors — released data from the first-half of their third observing run. Between April 1 and Oct. 1, 2019, 39 new gravitational-wave events were added to the 11 previously confirmed events, bringing the total number of gravitational-wave events to 50. The discoveries break new ground by encoding a wealth of information on the history and formation of black holes and neutron stars throughout the universe and span a wide range of masses, distances, and spins of companion stars. They represent cosmic sources consistent with the coalescences of binary black holes, binary neutron stars, and neutron star–black hole binaries.
We asked the LIGO group at Penn State to help us understand what these new discoveries mean:
Q: Briefly, what is LIGO and what does it do?
PSU LIGO: LIGO stands for Laser Interferometer Gravitational-wave Observatory. As the name describes, the two LIGO detectors — one in Hanford, Washington and one in Livingston, Louisiana — observe astrophysical gravitational waves, which are ripples in spacetime that were predicted over 100 years ago by Einstein and first observed by LIGO in 2016. The LIGO Scientific Collaboration is an international group of scientists which analyze the LIGO data and findings, at the same time releasing the analyzed data. The detections in this data release were reported jointly with the European Virgo Collaboration, which operates a similar gravitational-wave detector based in Italy.