Astronomy without light |

A new era
This is why the new field of gravitational wave astronomy is so exciting. Every new method we develop to study the universe results in the discovery of something unexpected. Supermassive black holes, pulsars, gamma-ray bursts, and many more objects were discovered with the invention of new branches of light-based astronomy. So, gravitational-wave astronomy is likely to turn up others we can’t predict today.

Meanwhile, the field is just getting started. LIGO isn’t operating at its maximum capabilities yet, and this year is the first time its two detectors have worked in tandem with Virgo. When all the observatory’s upgrades are done, we’ll detect gravitational waves from farther distances, and catch fainter signals closer to home.

Those weaker sources will probably be the next big find, and they will likely be colliding pulsars — the remains of super-dense cores of massive stars. When these objects collide, they produce a gamma-ray burst and a lot of visible light, but they also generate gravitational waves. Seeing the action via both light and gravitational radiation will give us extra information we can’t get other ways.

On the rarer side, some supernova explosions are likely to produce detectable gravitational waves. And since we don’t know exactly how stars explode, LIGO and Virgo may be able to provide us with some valuable insight. Supernovae make a lot of light (like colliding pulsars), so we could again use multiple types of observations to study the same event.

A cosmic workaround

LIGO, Virgo, and the upcoming Japanese observatory KAGRA are massive as far as scientific instruments go. Each of LIGO’s L-shaped detectors has arms 2.5 miles (4 kilometers) long, while Virgo’s arms are nearly 2 miles (3 km) long. The arms must be long to ensure they’re sensitive to gravitational waves, which can have large wavelengths. LIGO, for example, is currently most sensitive to wavelengths between about 60 and 600 miles (100-1,000 km). Even so, many…

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