The detector's latest discovery means we are now firmly in
a new era of astronomy — it matches up convincingly with what we already know about black holes
After decades trying to directly detect the waves, the recently upgraded Laser Interferometer Gravitational - Wave Observatory, now known as Advanced LIGO, appears to have succeeded, ushering in
a new era of astronomy.
Simultaneously «seeing» a neutron - star collision with conventional telescopes and «hearing» it through the vibrations of gravitational waves would mark
a new era of astronomy.
The method in which this star is being studied — by gathering and analyzing a flood of data from a single target — signals
a new era of astronomy.
Going forward, however, matching gravitational waves with electromagnetic ones could usher in
a new era of astronomy.
Once ALMA is completed, it will enable us to observe the universe that has never been reachable and initiate
a new era of astronomy.»
On August 17, a team of four Carnegie astronomers provided the first - ever glimpse of two neutron stars colliding, opening the door to
a new era of astronomy.
Thanks to gravitational wave observatories, we're entering
a new era of astronomy, one in which the dark universe will finally be revealed.