The R-process Alliance: A Bright, Strongly R-process-enhanced Extremely Metal-poor Star Observed with GHOST

Abstract

We present a detailed chemical-abundance and kinematic analysis of four extremely metal-poor (EMP; [Fe/H] ≤ -3.0) stars identified from Gaia BP/RP data in our ongoing search for the most primitive stars. This includes a primary target, Gaia~DR3~2563539603865382656 (hereafter G256353), a strongly r-process-enhanced star with [Eu/Fe]~= +1.20 and [Ba/Eu]~= -0.64. Our results are based on high-resolution, high-signal-to-noise GHOST spectra from Gemini-South. For the full sample, we statistically match the light-element abundances with those predicted from Population\,III supernova models. The ``best-fit'' model suggests massive progenitors with stellar masses of M 20-30\,M. In addition, we determine orbital histories for all of the stars. We find that Gaia~DR3~2887334237669844480 appears to be kinematically associated with Atari, an accreted structure in the Galactic disk. This star has low abundance ratios of strontium ([Sr/Fe] = -1.09) and barium ([Ba/Fe] = -0.37), which supports an accretion origin. For G256353, we determine chemical abundances for 15 neutron-capture elements. We compare the observed heavy-element pattern for G256353 with that of the Sun, HD~222925, and two neutron star merger models. The r-process elements in G256353 align reasonably well with HD~222925, the scaled-Solar pattern (except for the first peak), and a recent predicted pattern associated with neutron star mergers. This consistency reinforces the universality of the main r-process across diverse astrophysical environments.