Probing the distance and morphology of the Large Magellanic Cloud with RR Lyrae stars

Abstract

We present a Bayesian analysis of the distances to 15,040 Large Magellanic Cloud (LMC) RR Lyrae stars using V- and I-band light curves from the Optical Gravitational Lensing Experiment, in combination with new z-band observations from the Dark Energy Camera. Our median individual RR Lyrae distance statistical error is 1.89 kpc (fractional distance error of 3.76 per cent). We present three-dimensional contour plots of the number density of LMC RR Lyrae stars and measure a distance to the core LMC RR Lyrae centre of 50.24820.0546 (statistical) 0.4628 (systematic) kpc, equivalently μ LMC=18.50560.0024 (statistical) 0.02 (systematic). This finding is statistically consistent with and four times more precise than the canonical value determined by a recent meta-analysis of 233 separate LMC distance determinations. We also measure a maximum tilt angle of 11.840.80 at a position angle of 62, and report highly precise constraints on the V, I, and z RR Lyrae period--magnitude relations. The full dataset of observed mean-flux magnitudes, derived colour excess E(V-I) values, and fitted distances for the 15,040 RR Lyrae stars produced through this work is made available through the publication's associated online data.