10th International Conference on Gravitation and Cosmology: New Horizons and Singularities in Gravity (ICGC 2023)

Indirect estimation of distance of a star from apparent magnitude.

Not scheduled

15m

IIT Guwahati

Poster Astrophysical Relativity Astrophysical Relativity

Speaker

Dr. Abisa Sinha

Description

Space observatory Gaia has prepared a large catalog of 1 billion astronomical objects which consists primarily of stars but also planets, comets, asteroids and quasars among others whose parallaxes are measured instead of distances ($r$). Bailer-Jones (\citet{Bailer-Jones}) established that distance estimation from parallaxes is not trivial once the fractional parallax error is larger than about 20\%, which will be the case for about 80\% of stars in the Gaia catalog. In the present model the distance estimates are developed through a Bayesian model using apparent magnitudes which are distant dependent intrinsic properties of stars. The proposed model is based on apparent magnitude limited distribution (viz. $\varphi (m)$) constructed with the combination of the probability density function (pdf) of an absolute magnitude limited distribution $\mathrm{\Phi }(M)$ along with a prior. The former one is constructed from real data set of Gaia Catalogue of apparent magnitudes, corrected for extinction and parallaxes of a huge number of stars. The posterior distribution of the estimated distances thus found has variances and bias under control even for a lager fractional error (viz. more than 80 \% compared to the previous work ) and hence for a larger distance.