LIGO's Third Observing Run Started with a Bang!
News Release • August 12, 2019
LIGO is just four months into its third observing run (O3) and there’s already a lot to be excited about. O3 began on April 1st, 2019 with high expectations for detections thanks to a series of upgrades that were made to both instruments after LIGO’s second observing run ended on August 25th, 2017. Also joining O3 on April 1st was Virgo, the European-based gravitational-wave detector, located at the European Gravitational Observatory (EGO) in Italy, which almost doubled its sensitivity since its last run.
This is the first LIGO run using ‘squeezed light’ – specially prepared photon states that use the Heisenberg uncertainty principle to reduce the noise at high frequencies. In addition, mirrors were upgraded, the main laser power was increased, and other changes were made to bring up the sensitivity.
These improvements were expected to increase LIGO’s range by around 60%, enabling it to detect merging binary neutron stars (BNS) to a distance of 120-170 megaparsecs (Mpc), or 390-550 million light years. Binary black hole (BBH) mergers would be detectable at much greater distances because the waves they make are much higher in amplitude.
At the outset of O3, LIGO Livingston had already surpassed the lower 120 Mpc benchmark, reaching 140 Mpc (450 million light years distant), where they have remained for most of the run so far. LIGO Hanford (LHO) has maintained a range of just under 120 Mpc. We believe we know why LHO is not as sensitive, and some changes to improve the sensitivity will be implemented in an upcoming commissioning break when LIGO will temporarily halt the observing run (from October 1 to 31, with the run resuming on November 1). Other more serious improvements will have to wait until O3 has ended in May 2020, but are in the queue.
So how have these improvements impacted actual detections? Detection estimates calculated prior to O3 suggested that LIGO would detect at least a few BBH mergers per month, and possibly one BNS merger each month.
At 18 weeks into O3, it seems that this estimate was pretty good. By July 31st, 2019, LIGO had sent out 25 alerts to possible detections, three have since been retracted, leaving us with 22 ‘candidate’ gravitational wave events. We call them “candidates” because we still need time to vet all of them. If all candidates are verified, then the number of detections made by LIGO in just the first third of O3 will double the number of detections made in its first two runs combined.
As of July 31, 2019 LIGO/Virgo has seen:
- 18 binary black hole merger candidates
- 4 binary neutron star merger candidates
So far, no electromagnetic counterparts related to our public alerts have been observed, but all candidates are being actively analyzed by LSC/Virgo science teams. Certainly, the more candidates we detect, the better the chances that we’ll observe something new and exciting. But only time will tell whether we catch something we’ve never seen before.
Want to stay informed/be involved?
Here are some more ways you can be part of the gravitational-wave detection adventure!
- Want to learn about candidate detections at the same time as the broader scientific community? There’s an App for that! Currently only for iPhone (Android App coming soon). Get it here: Gravitational Wave Events iPhone App.
- Explore gravitational wave data with some fun interactive tools at the LIGO/Virgo Gravitational Wave Open Science Center (GWOSC).
- To see more beautiful black constellation sky-localization maps, visit: gwcat.cardiffgravity.org/skymaps