Discovery of a new WZ sagittae-type cataclysmic variable in the Kepler/K2 data

R. Ridden-Harper; B. E. Tucker; P. Garnavich; A. Rest; S. Margheim; E. J. Shaya; C. Littlefield; G. Barensten; C. Hedges; M. Gully-Santiago

doi:10.1093/mnras/stz2923

Discovery of a new WZ sagittae-type cataclysmic variable in the Kepler/K2 data

R. Ridden-Harper^*, B. E. Tucker, P. Garnavich, A. Rest, S. Margheim, E. J. Shaya, C. Littlefield, G. Barensten, C. Hedges, M. Gully-Santiago

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

9 Citations (Scopus)

Abstract

We identify a new, bright transient in the K2/Kepler Campaign 11 field. Its light curve rises over 7 mag in a day and then declines 3 mag over a month before quickly fading another 2 mag. The transient was still detectable at the end of the campaign. The light curve is consistent with a WZ Sge-type dwarf nova outburst. Early superhumps with a period of 82 min are seen in the first 10 days and suggest that this is the orbital period of the binary, which is typical for the WZ Sge class. Strong superhump oscillations develop 10 days after peak brightness with periods ranging between 83 and 84 min. At 25 days after the peak brightness a bump in the light curve appears to signal a subtle rebrightening phase implying that this was an unusual type-A outburst. This is the only WZ Sge-type system observed by K2/Kepler during an outburst. The early rise of this outburst is well fitted with a broken power law. In first 10 h, the system brightened linearly and then transitioned to a steep rise with a power-law index of 4.8. Looking at archival K2/Kepler data and new TESS observations, a linear rise in the first several hours at the initiation of a superoutburst appears to be common in SU Ursa Majoris stars.

Original language	English
Pages (from-to)	5551-5559
Number of pages	9
Journal	Monthly Notices of the Royal Astronomical Society
Volume	490
Issue number	4
DOIs	https://doi.org/10.1093/mnras/stz2923
Publication status	Published - 1 Dec 2019

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title = "Discovery of a new WZ sagittae-type cataclysmic variable in the Kepler/K2 data",

abstract = "We identify a new, bright transient in the K2/Kepler Campaign 11 field. Its light curve rises over 7 mag in a day and then declines 3 mag over a month before quickly fading another 2 mag. The transient was still detectable at the end of the campaign. The light curve is consistent with a WZ Sge-type dwarf nova outburst. Early superhumps with a period of 82 min are seen in the first 10 days and suggest that this is the orbital period of the binary, which is typical for the WZ Sge class. Strong superhump oscillations develop 10 days after peak brightness with periods ranging between 83 and 84 min. At 25 days after the peak brightness a bump in the light curve appears to signal a subtle rebrightening phase implying that this was an unusual type-A outburst. This is the only WZ Sge-type system observed by K2/Kepler during an outburst. The early rise of this outburst is well fitted with a broken power law. In first 10 h, the system brightened linearly and then transitioned to a steep rise with a power-law index of 4.8. Looking at archival K2/Kepler data and new TESS observations, a linear rise in the first several hours at the initiation of a superoutburst appears to be common in SU Ursa Majoris stars.",

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author = "R. Ridden-Harper and Tucker, {B. E.} and P. Garnavich and A. Rest and S. Margheim and Shaya, {E. J.} and C. Littlefield and G. Barensten and C. Hedges and M. Gully-Santiago",

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T1 - Discovery of a new WZ sagittae-type cataclysmic variable in the Kepler/K2 data

AU - Ridden-Harper, R.

AU - Tucker, B. E.

AU - Garnavich, P.

AU - Rest, A.

AU - Margheim, S.

AU - Shaya, E. J.

AU - Littlefield, C.

AU - Barensten, G.

AU - Hedges, C.

AU - Gully-Santiago, M.

PY - 2019/12/1

Y1 - 2019/12/1

N2 - We identify a new, bright transient in the K2/Kepler Campaign 11 field. Its light curve rises over 7 mag in a day and then declines 3 mag over a month before quickly fading another 2 mag. The transient was still detectable at the end of the campaign. The light curve is consistent with a WZ Sge-type dwarf nova outburst. Early superhumps with a period of 82 min are seen in the first 10 days and suggest that this is the orbital period of the binary, which is typical for the WZ Sge class. Strong superhump oscillations develop 10 days after peak brightness with periods ranging between 83 and 84 min. At 25 days after the peak brightness a bump in the light curve appears to signal a subtle rebrightening phase implying that this was an unusual type-A outburst. This is the only WZ Sge-type system observed by K2/Kepler during an outburst. The early rise of this outburst is well fitted with a broken power law. In first 10 h, the system brightened linearly and then transitioned to a steep rise with a power-law index of 4.8. Looking at archival K2/Kepler data and new TESS observations, a linear rise in the first several hours at the initiation of a superoutburst appears to be common in SU Ursa Majoris stars.

AB - We identify a new, bright transient in the K2/Kepler Campaign 11 field. Its light curve rises over 7 mag in a day and then declines 3 mag over a month before quickly fading another 2 mag. The transient was still detectable at the end of the campaign. The light curve is consistent with a WZ Sge-type dwarf nova outburst. Early superhumps with a period of 82 min are seen in the first 10 days and suggest that this is the orbital period of the binary, which is typical for the WZ Sge class. Strong superhump oscillations develop 10 days after peak brightness with periods ranging between 83 and 84 min. At 25 days after the peak brightness a bump in the light curve appears to signal a subtle rebrightening phase implying that this was an unusual type-A outburst. This is the only WZ Sge-type system observed by K2/Kepler during an outburst. The early rise of this outburst is well fitted with a broken power law. In first 10 h, the system brightened linearly and then transitioned to a steep rise with a power-law index of 4.8. Looking at archival K2/Kepler data and new TESS observations, a linear rise in the first several hours at the initiation of a superoutburst appears to be common in SU Ursa Majoris stars.

KW - Catalogues

KW - Editorials

KW - Notices

KW - Stars: Dwarf novae

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DO - 10.1093/mnras/stz2923

M3 - Article

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VL - 490

SP - 5551

EP - 5559

JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

IS - 4

ER -

Discovery of a new WZ sagittae-type cataclysmic variable in the Kepler/K2 data

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