For the first time, astronomers detect gravitational waves from two neutron stars colliding

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External News Details
Media
  • Laura Cadonati Laura Cadonati
    (image/jpeg)

The Aug.17, 2017, detection of gravitational waves and light from the merger of two neutron stars set off a race against time around the globe. Astronomers scrambled to confirm data that could be seen by telescopes and measured by gamma-ray, x-ray and radio wave detection equipment before they all faded away. Laura Cadonati, associate professor in the School of Physics and LIGO Scientific Collaboration deputy spokesperson, explains how these gravitational waves lasted longer than those from four previous incidents caused by black hole collisions. Cadonati is a member of the Center for Relativistic Astrophysics

 

 

Additional Information

Groups

College of Sciences, School of Physics

Categories
Physics and Physical Sciences
Keywords
College of Sciences, School of Physics, Center for Relativistic Astrophysics, Laura Cadonati, LIGO Scientific Collaboration, Gravitational waves, Neutron Stars
Status
  • Created By: Renay San Miguel
  • Workflow Status: Published
  • Created On: Oct 16, 2017 - 12:26pm
  • Last Updated: Oct 16, 2017 - 2:20pm