Add to ORKGThe general theory of relativity predicts that a star passing close to a supermassive black hole should exhibit a relativistic redshift. In this study, we used observations of the Galactic Center star S0-2 to test this prediction. We combined existing spectroscopic and astrometric measurements from 1995–2017, which cover S0-2’s 16-year orbit, with measurements from March to September 2018, which cover three events during S0-2’s closest approach to the black hole. We detected a combination of special relativistic and gravitational redshift, quantified using the redshift parameter ϒ. Our result, ϒ = 0.88 ± 0.17, is consistent with general relativity (ϒ = 1) and excludes a Newtonian model (ϒ = 0) with a statistical significance of 5σ
International audienceThe highly elliptical, 16-year-period orbit of the star S2 around the massive ...
The S-star cluster in the Galactic center allows us to study the physics close to a supermassive bla...
We present a 0.16% precise and 0.27% accurate determination of R0, the distance to the Galactic cent...
The general theory of relativity predicts that a star passing close to a supermassive black hole sho...
International audienceGeneral Relativity predicts that a star passing close to a supermassive black ...
The general theory of relativity predicts that a star passing close to a supermassive black hole sho...
International audienceContext. The first observations of the GRAVITY instrument obtained in 2016, ha...
The star S0-2, which orbits the supermassive black hole (SMBH) in our Galaxy with a period of 16 yea...
International audienceThe highly elliptical, 16-year-period orbit of the star S2 around the massive ...
The S-star cluster in the Galactic center allows us to study the physics close to a supermassive bla...
We present a 0.16% precise and 0.27% accurate determination of R0, the distance to the Galactic cent...
The general theory of relativity predicts that a star passing close to a supermassive black hole sho...
International audienceGeneral Relativity predicts that a star passing close to a supermassive black ...
The general theory of relativity predicts that a star passing close to a supermassive black hole sho...
International audienceContext. The first observations of the GRAVITY instrument obtained in 2016, ha...
The star S0-2, which orbits the supermassive black hole (SMBH) in our Galaxy with a period of 16 yea...
International audienceThe highly elliptical, 16-year-period orbit of the star S2 around the massive ...
The S-star cluster in the Galactic center allows us to study the physics close to a supermassive bla...
We present a 0.16% precise and 0.27% accurate determination of R0, the distance to the Galactic cent...