News
Richard O'Shaughnessy

The LIGO Scientific Collaboration and the Virgo Collaboration recently announced the discovery of GW190521, the most massive gravitational wave binary observed to date, and Rochester Institute of Technology scientists played an important role in identifying and analyzing the event.

Futurism cites research by Richard O’Shaughnessy, assistant professor in the School of Mathematical Sciences.

Scientists have reported detecting gravitational waves from 10 black hole mergers to date, but they are still trying to explain the origins of those mergers. The largest merger detected so far seems to have defied previous models because it has a higher spin and mass than the range thought possible. A group of researchers, including RIT Assistant Professor Richard O’Shaughnessy, has created simulations that could explain how the merger happened.

The Nobel Prize-winning project that hunts for gravitational waves— ripples in space and time—is about to begin the longest and most sensitive observational run to date. And several RIT researchers are preparing to pore over the new data to help uncover some of the universe’s biggest mysteries.

The outskirts of spiral galaxies like our own could be crowded with colliding black holes of massive proportions and a prime location for scientists hunting the sources of gravitational waves, according to RIT researchers.