Measuring cosmic distances with standard sirens
Measuring cosmic distances using gravitational waves, where sound rather than light, is used to measure "dynamics of the universe". These waves or "sirens" provide a new technique or standard candle to measure cosmic distances.
Decades of experimental effort paid off spectacularly on 14 September 2015, when the two detectors of the Laser Interferometer Gravitational-Wave Observatory (LIGO) spotted the gravitational waves generated by a pair of coalescing black holes.1 To get a sense of the effort leading to that breakthrough, consider that the gravitational waves caused the mirrors at the ends of each interferometers 4 km arms to oscillate with an amplitude of about 10?18 m, roughly a factor of a thousand smaller than the classical proton radius. The detection was also a triumph for theory. The frequency and amplitude evolution of the measured waves precisely matched general relativitys predictions for the signal produced by a binary black hole merger, even though the systems gravity was orders of magnitude stronger than that of any system that had been precisely probed before that detection. As figure 1 shows, gravitational-wave astronomy began not with a bang but with a chirp.
Fairly in-depth fascinating read:
https://physicstoday.scitation.org/doi/10.1063/PT.3.4090?fbclid=IwAR24unIVrhQgvuZzDtlnjZaHE4blOA1vLch6_fuH6fpHXRY14w067h9xX8g&