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W2788086970 abstract "Astrometric and spectroscopic monitoring of individual stars orbiting the supermassive black hole in the Galactic Center offer a promising way to detect general relativistic effects. While low-order effects are expected to be detected following the periastron passage of S2 in Spring 2018, detecting higher order effects due to black hole spin will require the discovery of closer stars. In this paper, we set out to determine the requirements such a star would have to satisfy to allow the detection of black hole spin. We focus on the instrument GRAVITY, which saw first light in 2016 and which is expected to achieve astrometric accuracies |$10hbox{--}100 , mu$|as. For an observing campaign with duration T years, total observations Nobs, astrometric precision σx, and normalized black hole spin χ, we find that |$a_{rm orb}(1-e^2)^{3/4} lesssim 300 R_{rm S} sqrt{frac{T}{4, {rm {yr}}}} left(frac{N_{rm obs}}{120}right)^{0.25} sqrt{frac{10, mu {rm as}}{sigma _x}} sqrt{frac{chi }{0.9}}$| is needed. For χ = 0.9 and a potential observing campaign with |$sigma _x = 10 , mu$|as, 30 observations yr−1 and duration 4–10 yr, we expect ∼0.1 star with K < 19 satisfying this constraint based on the current knowledge about the stellar population in the central 1 arcsec. We also propose a method through which GRAVITY could potentially measure radial velocities with precision ∼50 km s−1. If the astrometric precision can be maintained, adding radial velocity information increases the expected number of stars by roughly a factor of 2. While we focus on GRAVITY, the results can also be scaled to parameters relevant for future extremely large telescopes." @default.
W2788086970 created "2018-03-06" @default.
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W2788086970 date "2018-02-22" @default.
W2788086970 modified "2023-09-30" @default.
W2788086970 title "What stellar orbit is needed to measure the spin of the Galactic centre black hole from astrometric data?" @default.
W2788086970 cites W1925830640 @default.
W2788086970 cites W1964503351 @default.
W2788086970 cites W1979573214 @default.
W2788086970 cites W1982079529 @default.
W2788086970 cites W1987346517 @default.
W2788086970 cites W1988875030 @default.
W2788086970 cites W1994139399 @default.
W2788086970 cites W2000705853 @default.
W2788086970 cites W2009837323 @default.
W2788086970 cites W2011013038 @default.
W2788086970 cites W2023103953 @default.
W2788086970 cites W2030776989 @default.
W2788086970 cites W2031106768 @default.
W2788086970 cites W2032715249 @default.
W2788086970 cites W2050551037 @default.
W2788086970 cites W2050637585 @default.
W2788086970 cites W2054373355 @default.
W2788086970 cites W2060143612 @default.
W2788086970 cites W2063806773 @default.
W2788086970 cites W2070353143 @default.
W2788086970 cites W2076197447 @default.
W2788086970 cites W2077284204 @default.
W2788086970 cites W2077986634 @default.
W2788086970 cites W2084957177 @default.
W2788086970 cites W2085468745 @default.
W2788086970 cites W2097618194 @default.
W2788086970 cites W2103819762 @default.
W2788086970 cites W2109003813 @default.
W2788086970 cites W2110284565 @default.
W2788086970 cites W2119586222 @default.
W2788086970 cites W2123016982 @default.
W2788086970 cites W2152327544 @default.
W2788086970 cites W2165875176 @default.
W2788086970 cites W2171074980 @default.
W2788086970 cites W2191618462 @default.
W2788086970 cites W2542304591 @default.
W2788086970 cites W2612686510 @default.
W2788086970 cites W2618288299 @default.
W2788086970 cites W2952061705 @default.
W2788086970 cites W2990193255 @default.
W2788086970 cites W3098823048 @default.
W2788086970 cites W3099288582 @default.
W2788086970 cites W3099310392 @default.
W2788086970 cites W3099510415 @default.
W2788086970 cites W3099799106 @default.
W2788086970 cites W3100420595 @default.
W2788086970 cites W3100487131 @default.
W2788086970 cites W3100835006 @default.
W2788086970 cites W3101141948 @default.
W2788086970 cites W3101713755 @default.
W2788086970 cites W3102151461 @default.
W2788086970 cites W3103483512 @default.
W2788086970 cites W3103886831 @default.
W2788086970 cites W3104186194 @default.
W2788086970 cites W3104346142 @default.
W2788086970 cites W3104656493 @default.
W2788086970 cites W3104895996 @default.
W2788086970 cites W3104927545 @default.
W2788086970 cites W3105173790 @default.
W2788086970 cites W3105558556 @default.
W2788086970 cites W3105829920 @default.
W2788086970 cites W3106070623 @default.
W2788086970 cites W3106391639 @default.
W2788086970 cites W3106395727 @default.
W2788086970 cites W3123740973 @default.
W2788086970 cites W3123927616 @default.
W2788086970 cites W4239265288 @default.
W2788086970 cites W4289259839 @default.
W2788086970 cites W4300268140 @default.
W2788086970 cites W4301513625 @default.
W2788086970 doi "https://doi.org/10.1093/mnras/sty476" @default.
W2788086970 hasPublicationYear "2018" @default.
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