Discovery and characterization of five new eclipsing AM CVn systems

J. Van Roestel; T. Kupfer; M. J. Green; T. L.S. Wong; L. Bildsten; K. Burdge; T. Prince; T. R. Marsh; P. Szkody; C. Fremling; M. J. Graham; V. S. Dhillon; S. P. Littlefair; E. C. Bellm; M. Coughlin; D. A. Duev; D. A. Goldstein; R. R. Laher; B. Rusholme; R. Riddle; R. Dekany; S. R. Kulkarni

doi:10.1093/mnras/stab2421

Discovery and characterization of five new eclipsing AM CVn systems

J. Van Roestel, T. Kupfer, M. J. Green, T. L.S. Wong, L. Bildsten, K. Burdge, T. Prince, T. R. Marsh, P. Szkody, C. Fremling, M. J. Graham, V. S. Dhillon, S. P. Littlefair, E. C. Bellm, M. Coughlin, D. A. Duev, D. A. Goldstein, R. R. Laher, B. Rusholme, R. RiddleR. Dekany, S. R. Kulkarni

Physics and Astronomy (Twin Cities)

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23 Scopus citations

Abstract

AM CVn systems are ultra-compact, hydrogen-depleted, and helium-rich, accreting binaries with degenerate or semidegenerate donors. We report the discovery of five new eclipsing AM CVn systems with orbital periods of 61.5, 55.5, 53.3, 37.4, and 35.4 min. These systems were discovered by searching for deep eclipses in the Zwicky Transient Facility (ZTF) light curves of white dwarfs selected using Gaia parallaxes. We obtained phase-resolved spectroscopy to confirm that all systems are AM CVn binaries, and we obtained high-speed photometry to confirm the eclipse and characterize the systems. The spectra show double-peaked H e lines but also show metals, including K and Zn, elements that have never been detected in AM CVn systems before. By modelling the high-speed photometry, we measured the mass and radius of the donor star, potentially constraining the evolutionary channel that formed these AM CVn systems. We determined that the average mass of the accreting white dwarf is ≈0.8 M, and that the white dwarfs in long-period systems are hotter than predicted by recently updated theoretical models. The donors have a high entropy and are a factor of ≈2 more massive compared to zero-entropy donors at the same orbital period. The large donor radius is most consistent with H e-star progenitors, although the observed spectral features seem to contradict this. The discovery of five new eclipsing AM CVn systems is consistent with the known observed AM CVn space density and estimated ZTF recovery efficiency.

Original language	English (US)
Pages (from-to)	5440-5461
Number of pages	22
Journal	Monthly Notices of the Royal Astronomical Society
Volume	512
Issue number	4
DOIs	https://doi.org/10.1093/mnras/stab2421
State	Published - Jun 1 2022

Bibliographical note

Publisher Copyright:
© 2021 The Author(s) Published by Oxford University Press on behalf of Royal Astronomical Society.

Keywords

binaries: eclipsing
novae, cataclysmic variables
white dwarfs

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Van Roestel, J., Kupfer, T., Green, M. J., Wong, T. L. S., Bildsten, L., Burdge, K., Prince, T., Marsh, T. R., Szkody, P., Fremling, C., Graham, M. J., Dhillon, V. S., Littlefair, S. P., Bellm, E. C., Coughlin, M., Duev, D. A., Goldstein, D. A., Laher, R. R., Rusholme, B., ... Kulkarni, S. R. (2022). Discovery and characterization of five new eclipsing AM CVn systems. Monthly Notices of the Royal Astronomical Society, 512(4), 5440-5461. https://doi.org/10.1093/mnras/stab2421

Van Roestel, J, Kupfer, T, Green, MJ, Wong, TLS, Bildsten, L, Burdge, K, Prince, T, Marsh, TR, Szkody, P, Fremling, C, Graham, MJ, Dhillon, VS, Littlefair, SP, Bellm, EC, Coughlin, M, Duev, DA, Goldstein, DA, Laher, RR, Rusholme, B, Riddle, R, Dekany, R & Kulkarni, SR 2022, 'Discovery and characterization of five new eclipsing AM CVn systems', Monthly Notices of the Royal Astronomical Society, vol. 512, no. 4, pp. 5440-5461. https://doi.org/10.1093/mnras/stab2421

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abstract = "AM CVn systems are ultra-compact, hydrogen-depleted, and helium-rich, accreting binaries with degenerate or semidegenerate donors. We report the discovery of five new eclipsing AM CVn systems with orbital periods of 61.5, 55.5, 53.3, 37.4, and 35.4 min. These systems were discovered by searching for deep eclipses in the Zwicky Transient Facility (ZTF) light curves of white dwarfs selected using Gaia parallaxes. We obtained phase-resolved spectroscopy to confirm that all systems are AM CVn binaries, and we obtained high-speed photometry to confirm the eclipse and characterize the systems. The spectra show double-peaked H e lines but also show metals, including K and Zn, elements that have never been detected in AM CVn systems before. By modelling the high-speed photometry, we measured the mass and radius of the donor star, potentially constraining the evolutionary channel that formed these AM CVn systems. We determined that the average mass of the accreting white dwarf is ≈0.8 M, and that the white dwarfs in long-period systems are hotter than predicted by recently updated theoretical models. The donors have a high entropy and are a factor of ≈2 more massive compared to zero-entropy donors at the same orbital period. The large donor radius is most consistent with H e-star progenitors, although the observed spectral features seem to contradict this. The discovery of five new eclipsing AM CVn systems is consistent with the known observed AM CVn space density and estimated ZTF recovery efficiency.",

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AU - Van Roestel, J.

AU - Kupfer, T.

AU - Green, M. J.

AU - Wong, T. L.S.

AU - Bildsten, L.

AU - Burdge, K.

AU - Prince, T.

AU - Marsh, T. R.

AU - Szkody, P.

AU - Fremling, C.

AU - Graham, M. J.

AU - Dhillon, V. S.

AU - Littlefair, S. P.

AU - Bellm, E. C.

AU - Coughlin, M.

AU - Duev, D. A.

AU - Goldstein, D. A.

AU - Laher, R. R.

AU - Rusholme, B.

AU - Riddle, R.

AU - Dekany, R.

AU - Kulkarni, S. R.

PY - 2022/6/1

Y1 - 2022/6/1

N2 - AM CVn systems are ultra-compact, hydrogen-depleted, and helium-rich, accreting binaries with degenerate or semidegenerate donors. We report the discovery of five new eclipsing AM CVn systems with orbital periods of 61.5, 55.5, 53.3, 37.4, and 35.4 min. These systems were discovered by searching for deep eclipses in the Zwicky Transient Facility (ZTF) light curves of white dwarfs selected using Gaia parallaxes. We obtained phase-resolved spectroscopy to confirm that all systems are AM CVn binaries, and we obtained high-speed photometry to confirm the eclipse and characterize the systems. The spectra show double-peaked H e lines but also show metals, including K and Zn, elements that have never been detected in AM CVn systems before. By modelling the high-speed photometry, we measured the mass and radius of the donor star, potentially constraining the evolutionary channel that formed these AM CVn systems. We determined that the average mass of the accreting white dwarf is ≈0.8 M, and that the white dwarfs in long-period systems are hotter than predicted by recently updated theoretical models. The donors have a high entropy and are a factor of ≈2 more massive compared to zero-entropy donors at the same orbital period. The large donor radius is most consistent with H e-star progenitors, although the observed spectral features seem to contradict this. The discovery of five new eclipsing AM CVn systems is consistent with the known observed AM CVn space density and estimated ZTF recovery efficiency.

AB - AM CVn systems are ultra-compact, hydrogen-depleted, and helium-rich, accreting binaries with degenerate or semidegenerate donors. We report the discovery of five new eclipsing AM CVn systems with orbital periods of 61.5, 55.5, 53.3, 37.4, and 35.4 min. These systems were discovered by searching for deep eclipses in the Zwicky Transient Facility (ZTF) light curves of white dwarfs selected using Gaia parallaxes. We obtained phase-resolved spectroscopy to confirm that all systems are AM CVn binaries, and we obtained high-speed photometry to confirm the eclipse and characterize the systems. The spectra show double-peaked H e lines but also show metals, including K and Zn, elements that have never been detected in AM CVn systems before. By modelling the high-speed photometry, we measured the mass and radius of the donor star, potentially constraining the evolutionary channel that formed these AM CVn systems. We determined that the average mass of the accreting white dwarf is ≈0.8 M, and that the white dwarfs in long-period systems are hotter than predicted by recently updated theoretical models. The donors have a high entropy and are a factor of ≈2 more massive compared to zero-entropy donors at the same orbital period. The large donor radius is most consistent with H e-star progenitors, although the observed spectral features seem to contradict this. The discovery of five new eclipsing AM CVn systems is consistent with the known observed AM CVn space density and estimated ZTF recovery efficiency.

KW - binaries: eclipsing

KW - novae, cataclysmic variables

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Discovery and characterization of five new eclipsing AM CVn systems

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