Census of R Coronae Borealis stars I: Infrared light curves from Palomar   Gattini IR

Viraj R. Karambelkar (1); Mansi M. Kasliwal (1); Patrick Tisserand; (2); Kishalay De (1); Shreya Anand (1); Michael C. B. Ashley (3); Alex; Delacroix (4); Matthew Hankins (5); Jacob E. Jencson (6); Ryan M. Lau (7),; Dan McKenna (4); Anna Moore (8); Eran O. Ofek (9); Roger M. Smith (4),; Roberto Soria (10; 11); Jamie Soon (8); Samaporn Tinyanont (12); Tony; Travouillon (8); and Yuhan Yao (1) ((1) California Institute of Technology,; (2) Institut d'Astrophysique de Paris (3) University of New South Wales; (4); Caltech Optical Observatories; (5) Arkansas Tech University; (6) University; of Arizona; (7) Japan Aerospace Exploration Agency; (8) Australian National; University; (9) Weizmann Institute of Science; (10) University of the Chinese; Academy of Sciences; (11) The University of Sydney; (12) University of; California Santa Cruz)

arXiv:2012.11629·astro-ph.SR·April 14, 2021

Census of R Coronae Borealis stars I: Infrared light curves from Palomar Gattini IR

Viraj R. Karambelkar (1), Mansi M. Kasliwal (1), Patrick Tisserand, (2), Kishalay De (1), Shreya Anand (1), Michael C. B. Ashley (3), Alex, Delacroix (4), Matthew Hankins (5), Jacob E. Jencson (6), Ryan M. Lau (7),, Dan McKenna (4), Anna Moore (8), Eran O. Ofek (9)

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TL;DR

This paper presents the first systematic infrared survey of R Coronae Borealis stars in the Milky Way using Palomar Gattini IR, identifying new candidates and confirming several through spectroscopy, revealing insights into their properties and origins.

Contribution

It introduces a new infrared light curve survey for RCB stars, identifies promising candidates, and confirms new RCB stars spectroscopically, advancing understanding of their characteristics and formation.

Findings

01

149 promising RCB candidates identified from IR light curves.

02

11 new RCB stars spectroscopically confirmed.

03

Detection of high-velocity winds and molecular features in RCB spectra.

Abstract

We are undertaking the first systematic infrared (IR) census of R Coronae Borealis (RCB) stars in the Milky Way, beginning with IR light curves from the Palomar Gattini IR (PGIR) survey. PGIR is a 30 cm $J$ -band telescope with a 25 deg $^{2}$ camera that is surveying 18000 deg $^{2}$ of the northern sky ( $δ > - 2 8^{o}$ ) at a cadence of 2 days. We present PGIR light curves for 922 RCB candidates selected from a mid-IR color-based catalog (Tisserand et al. 2020). Of these 922, 149 are promising RCB candidates as they show pulsations or declines similar to RCB stars. Majority of the candidates that are not RCB stars are either long period variables (LPVs) or RV-Tauri stars. We identify IR color-based criteria to better distinguish between RCB stars and LPVs. As part of a pilot spectroscopic run, we obtained NIR spectra for 26 out of the 149 promising candidates and spectroscopically…

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