Your search keyword '"Clayton, Geoffrey C."' showing total 19 results

1. An Infrared Census of R Coronae Borealis Stars II—Spectroscopic Classifications and Implications for the Rate of Low-mass White Dwarf Mergers.

Author

Karambelkar, Viraj R., Kasliwal, Mansi M., Tisserand, Patrick, Anand, Shreya, Ashley, Michael C. B., Bildsten, Lars, Clayton, Geoffrey C., Crawford, Courtney C., De, Kishalay, Earley, Nicholas, Hankins, Matthew J., Hall, Xander, Lamberts, Astrid, Lau, Ryan M., McKenna, Dan, Moore, Anna, Ofek, Eran O., Smith, Roger M., Soria, Roberto, and Soon, Jamie

Subjects

STELLAR oscillations, VARIABLE stars, DWARF stars, INFRARED astronomy, MILKY Way

Abstract

We present results from a systematic infrared (IR) census of R Coronae Borealis (RCB) stars in the Milky Way, using data from the Palomar Gattini IR (PGIR) survey. RCB stars are dusty, erratic variable stars presumably formed from the merger of a He-core and a CO-core white dwarf (WD). PGIR is a 30 cm J -band telescope with a 25 deg2 camera that surveys 18,000 deg2 of the northern sky (δ > −28°) at a cadence of 2 days. Using PGIR J- band lightcurves for ∼60 million stars together with mid-IR colors from WISE, we selected a sample of 530 candidate RCB stars. We obtained near-IR spectra for these candidates and identified 53 RCB stars in our sample. Accounting for our selection criteria, we find that there are a total of ≈ 350 − 100 + 150 RCB stars in the Milky Way. Assuming typical RCB lifetimes, this corresponds to an RCB formation rate of 0.8–5 × 10−3 yr−1, consistent with observational and theoretical estimates of the He-CO WD merger rate. We searched for quasi-periodic pulsations in the PGIR lightcurves of RCB stars and present pulsation periods for 16 RCB stars. We also examined high-cadenced TESS lightcurves for RCB and the chemically similar, but dustless hydrogen-deficient carbon (dLHdC) stars. We find that dLHdC stars show variations on timescales shorter than RCB stars, suggesting that they may have lower masses than RCB stars. Finally, we identified 3 new spectroscopically confirmed and 12 candidate Galactic DY Per type stars—believed to be colder cousins of RCB star—doubling the sample of Galactic DY Per type stars. [ABSTRACT FROM AUTHOR]

Published

2024

2. NSV 11154 Is a New R R Coronae Borealis Star

Author

Kijbunchoo, Nutsinee, Clayton, Geoffrey C., Vieux, Timothy C., Dickerman, N., Hillwig, T. C., Welch, D. L., Pagnotta, Ashley, Tang, Sumin, Grindlay, J. E., and Henden, A.

Published

2011

3. V532 Oph Is a New R Coronae Borealis Star

Author

Clayton, Geoffrey C., Kilkenny, D., Wils, P., and Welch, D. L.

Published

2009

4. Searching for Past Outbursts of Recurrent Novae

Author

Robinson, Peter B., Clayton, Geoffrey C., and Schaefer, Bradley E.

Published

2006

5. A Unique Dust Formation Episode in the SC‐Type Star UY Centauri

Author

Steinfadt, Justin D. R., Clayton, Geoffrey C., Evans, Tom Lloyd, and Williams, Tom

Published

2005

6. The Newly Active R Coronae Borealis Star, V2552 Ophiuchi

Author

Hesselbach, E., Clayton, Geoffrey C., and Smith, Paul S.

Published

2003

7. ES Aquilae Is an R Coronae Borealis Star

Author

Clayton, Geoffrey C., Hammond, D., Lawless, J., Kilkenny, D., Evans, T. Lloyd, Mattei, J., and Landolt, A. U.

Published

2002

8. The 2175 Å Extinction Bump in QSO Spectra

Author

Pitman, Karly M., Clayton, Geoffrey C., and Gordon, Karl D.

Published

2000

9. Optical Long‐Slit Spectroscopy of a Sample of Spiral Galaxies

Author

Misselt, K. A., Clayton, Geoffrey C., and Gordon, Karl D.

Published

1999

10. A Search for an Emission‐Line Region in the Hydrogen‐deficient Carbon Star HD 182040

Author

Brunner, Andrew R., Clayton, Geoffrey C., and Ayres, T. R.

Published

1998

11. Polarimetry of the LMC X‐Ray Binary A0538−66 during an “On/Off” Transition in 1991

Author

Misselt, K. A., Clayton, Geoffrey C., and Schulte‐Ladbeck, R. E.

Published

1998

12. Molecular Hydrogen along Two Lines of Sight through the Large Magellanic Cloud

Author

Gunderson, Kurt S., Clayton, Geoffrey C., and Green, James C.

Published

1998

13. Confirmation of Eclipses in HR 7940 (HD 197770), a Reddened B2 III Star

Author

Clayton, Geoffrey C.

Published

1996

14. The R Coronae Borealis Stars

Author

Clayton, Geoffrey C.

Published

1996

15. Long-Term Spectroscopic and Polarimetric Monitoring of R Coronae Borealis Near Maximum Light

Author

Clayton, Geoffrey C., Whitney, Barbara A., Meade, Marilyn R., Babler, Brian, Bjorkman, Karen S., and Nordsieck, Kenneth H.

Published

1995

16. Long-Term Variations in Dust Production in R Coronae Borealis

Author

Clayton, Geoffrey C., Whitney, Barbara A., and Mattei, Janet A.

Published

1993

17. NSV 11154 Is a NewRCoronae Borealis Star

Author

Kijbunchoo, Nutsinee, primary, Clayton, Geoffrey C., additional, Vieux, Timothy C., additional, Dickerman, N., additional, Hillwig, T. C., additional, Welch, D. L., additional, Pagnotta, Ashley, additional, Tang, Sumin, additional, Grindlay, J. E., additional, and Henden, A., additional

Published

2011

18. NSV 11154 Is a New R Coronae Borealis Star

Author

Kijbunchoo, Nutsinee, Clayton, Geoffrey C., Vieux, Timothy C., Pagnotta, Ashley, Tang, Sumin, and and, Grindlay

Abstract

NSV 11154 has been confirmed as a new member of the rare hydrogen-deficient R Coronae Borealis (RCB) stars based on new photometric and spectroscopic data. Using new photometry, as well as archival plates from the Harvard archive, we have constructed the historical light curve of NSV 11154 from 1896 to the present. The light curve shows the sudden, deep, irregularly spaced declines characteristic of RCB stars. The visible spectrum is typical of a cool (Teff [?] 5000 K) RCB star, showing no hydrogen lines, strong C2 Swan bands, and no evidence of 13C. In addition, the star shows small pulsations that are typical of an RCB star and an infrared excess due to circumstellar dust, with a temperature of [?]800 K. The distance to NSV 11154 is estimated to be [?]14.5 kpc. RCB stars are very rare in the Galaxy, so each additional star is important to population studies leading to a better understanding the origins of these mysterious stars. Among the known sample of RCB stars, NSV 11154 is unusual in that it lies well above the Galactic plane (5 kpc) and away from the Galactic center, which suggests that its parent population is neither thick disk nor bulge.

Published

2011

19. NSV 11154 Is a New RCoronae Borealis Star

Author

Kijbunchoo, Nutsinee, Clayton, Geoffrey C., Vieux, Timothy C., Dickerman, N., Hillwig, T. C., Welch, D. L., Pagnotta, Ashley, Tang, Sumin, Grindlay, J. E., and Henden, A.

Abstract

NSV 11154 has been confirmed as a new member of the rare hydrogen-deficient RCoronae Borealis (RCB) stars based on new photometric and spectroscopic data. Using new photometry, as well as archival plates from the Harvard archive, we have constructed the historical light curve of NSV 11154 from 1896 to the present. The light curve shows the sudden, deep, irregularly spaced declines characteristic of RCB stars. The visible spectrum is typical of a cool (Teff? 5000 K) RCB star, showing no hydrogen lines, strong C2Swan bands, and no evidence of 13C. In addition, the star shows small pulsations that are typical of an RCB star and an infrared excess due to circumstellar dust, with a temperature of ?800 K. The distance to NSV 11154 is estimated to be ?14.5 kpc. RCB stars are very rare in the Galaxy, so each additional star is important to population studies leading to a better understanding the origins of these mysterious stars. Among the known sample of RCB stars, NSV 11154 is unusual in that it lies well above the Galactic plane (5 kpc) and away from the Galactic center, which suggests that its parent population is neither thick disk nor bulge.

Published

2011