A systematic search of Zwicky transient facility data for ultracompact binary LISA-detectable gravitational-wave sources

Burdge, Kevin B.; Prince, Thomas A.; Fuller, Jim; Kaplan, David L.; Marsh, Thomas R.; Tremblay, Pier-Emmanuel; Zhuang, Zhuyun; Bellm, Eric C.; Caiazzo, Ilaria; Coughlin, Michael W.; Dhillon, Vik S.; Gaensicke, Boris; Rodríguez-Gil, Pablo; Graham, Matthew J.; Hermes, JJ; Kupfer, Thomas; Littlefair, S. P.; Mróz, Przemek; Phinney, E. S.; Roestel, Jan van; Yao, Yuhan; Dekany, Richard G.; Drake, Andrew J.; Duev, Dmitry A.; Hale, David; Feeney, Michael; Helou, George; Kaye, Stephen; Mahabal, Ashish. A.; Masci, Frank J.; Riddle, Reed; Smith, Roger; Soumagnac, Maayane T.; Kulkarni, S. R.

A systematic search of Zwicky transient facility data for ultracompact binary LISA-detectable gravitational-wave sources

Burdge KB, Prince TA, Fuller J, Kaplan DL, Marsh TR, Tremblay P-E, Zhuang Z, Bellm EC, Caiazzo I, Coughlin MW, Dhillon VS, Gaensicke B, Rodríguez-Gil P, Graham MJ, Hermes J, Kupfer T, Littlefair SP, Mróz P, Phinney ES, Roestel J van, Yao Y, Dekany RG, Drake AJ, Duev DA, Hale D, Feeney M, Helou G, Kaye S, Mahabal AA, Masci FJ, Riddle R, Smith R, Soumagnac MT, Kulkarni SR. 2020. A systematic search of Zwicky transient facility data for ultracompact binary LISA-detectable gravitational-wave sources. The Astrophysical Journal. 905(1), 32.

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https://doi.org/10.48550/arXiv.2009.02567

DOI

10.3847/1538-4357/abc261

Journal Article | Published | English

Scopus indexed

Author

Burdge, Kevin B.; Prince, Thomas A.; Fuller, Jim; Kaplan, David L.; Marsh, Thomas R.; Tremblay, Pier-Emmanuel; Zhuang, Zhuyun; Bellm, Eric C.; Caiazzo, Ilaria^ISTA ; Coughlin, Michael W.; Dhillon, Vik S.; Gaensicke, Boris
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Abstract

Using photometry collected with the Zwicky Transient Facility, we are conducting an ongoing survey for binary systems with short orbital periods ( with the goal of identifying new gravitational-wave sources detectable by the upcoming Laser Interferometer Space Antenna (LISA). We present a sample of 15 binary systems discovered thus far, with orbital periods ranging from 6.91 to 56.35 minutes. Of the 15 systems, seven are eclipsing systems that do not show signs of significant mass transfer. Additionally, we have discovered two AM Canum Venaticorum systems and six systems exhibiting primarily ellipsoidal variations in their lightcurves. We present follow-up spectroscopy and high-speed photometry confirming the nature of these systems, estimates of their LISA signal-to-noise ratios, and a discussion of their physical characteristics.

Keywords

Space and Planetary Science; Astronomy and Astrophysics

Publishing Year

2020

Date Published

2020-12-09

Journal Title

The Astrophysical Journal

Volume

905

Issue

Article Number

ISSN

0004-637X

eISSN

1538-4357

IST-REx-ID

15223

Cite this

Burdge KB, Prince TA, Fuller J, et al. A systematic search of Zwicky transient facility data for ultracompact binary LISA-detectable gravitational-wave sources. The Astrophysical Journal. 2020;905(1). doi:10.3847/1538-4357/abc261

Burdge, K. B., Prince, T. A., Fuller, J., Kaplan, D. L., Marsh, T. R., Tremblay, P.-E., … Kulkarni, S. R. (2020). A systematic search of Zwicky transient facility data for ultracompact binary LISA-detectable gravitational-wave sources. The Astrophysical Journal. American Astronomical Society. https://doi.org/10.3847/1538-4357/abc261

Burdge, Kevin B., Thomas A. Prince, Jim Fuller, David L. Kaplan, Thomas R. Marsh, Pier-Emmanuel Tremblay, Zhuyun Zhuang, et al. “A Systematic Search of Zwicky Transient Facility Data for Ultracompact Binary LISA-Detectable Gravitational-Wave Sources.” The Astrophysical Journal. American Astronomical Society, 2020. https://doi.org/10.3847/1538-4357/abc261.

K. B. Burdge et al., “A systematic search of Zwicky transient facility data for ultracompact binary LISA-detectable gravitational-wave sources,” The Astrophysical Journal, vol. 905, no. 1. American Astronomical Society, 2020.

Burdge, Kevin B., et al. “A Systematic Search of Zwicky Transient Facility Data for Ultracompact Binary LISA-Detectable Gravitational-Wave Sources.” The Astrophysical Journal, vol. 905, no. 1, 32, American Astronomical Society, 2020, doi:10.3847/1538-4357/abc261.

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