Hunting for eclipses: high-speed observations of cataclysmic variables

Hardy, L. K.; McAllister, M. J.; Dhillon, V. S.; Littlefair, S. P.; Bours, Madelon C. P.; Breedt, E.; Butterley, T.; Chakpor, Anurak; Irawati, P.; Kerry, P.; Marsh, T. R.; Parsons, S. G.; Savoury, C. D. J.; Wilson, Richard W.; Woudt, P. A.

doi:10.1093/mnras/stw3051

Cited by 27 publications

(23 citation statements)

References 108 publications

(150 reference statements)

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“…5)3.6 CSS 0524+00 (CSS131106:052412+004148)Since the discovery of CSS 0524+00 by CRTS on 2013 Nov 6(Drake et al 2009), ample coverage shows evidence of multiple eclipses and outbursts. With evidence of eclipses,Hardy et al (2017) observed CSS 0524+00, finding a period of 0.17466647(±2) d. We find a period of 0.1747(±3) d, in agreement with that found byHardy et al (2017). Our average light curve, folded on the ephemeris HJD min = 2456651.4295(±3) + 0.1747(±3) E, is shown inFigure 1; and shows eclipse depths of around 1.2 mag.…”

supporting

confidence: 84%

“…The CRTS light curve shows evidence of previous outbursts, as well as a possible superoutburst. Hardy et al (2017) observed CSS 2144+22, confirming no eclipses. Our average light curve is shown in Figure 6.…”

Section: Asassn-15lsmentioning

confidence: 69%

“…Systems with clearly defined eclipse components (bright spot, accretion disc, white dwarf and donor star) can be modelled to accurately determine the systems parameters, such as masses and radii of the stellar components. This information contributes towards completing the sample distribution of CV parameters (such as orbital period distribution or white dwarf mass distribution) and plays an important role in understanding their evolution (Hardy et al 2017). ASASSN-14ik and ASASSN-14ka have outburst periods of ∼ 1 month, while ASASSN-14hv has outbursts approximately every 2 months, along with superoutbursts,.…”

Section: Discussionmentioning

confidence: 99%

“…Oliveira et al (2017) later obtained a spectrum of MLS 0720+17. They concluded that the spectrum was typical of a polar, with the eclipse seen by Hardy et al (2017) being a modulation due to cyclotron emission, and the narrow emission lines seen in the spectrum inconsistent with an eclipsing disc system. Our individual light curves and time-resolved spectroscopy are shown in Figure 4 and Figure 5 respectively, while our average light curve is shown in Figure 1.…”

Section: Mls 0720+17 (Mls101226:072033+172437)mentioning

confidence: 99%

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High-speed photometry of faint cataclysmic variables – IX. Targets from multiple transient surveys

Paterson

Woudt

Warner

et al. 2019

Monthly Notices of the Royal Astronomical Society

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We present high-speed photometric observations of 25 cataclysmic variables detected by the All Sky Automated Search for Super-Novae (ASAS-SN), the Mobile Astronomical System of the TElescope-Robot (MASTER) and the Catalina Real-Time Transient Survey (CRTS). From these observations we determine 16 new orbital periods and 1 new superhump period. Two systems (ASASSN-14ik and ASASSN-14ka) have outburst periods of approximately 1 month, with a third (ASASSN-14hv) having outbursts approximately every 2 months. Included in the sample are 11 eclipsing systems, one probable intermediate polar (ASASSN-15fm), 1 SW Sex-type star (MLS 0720+17), 1 WZ Sge-type star (ASASSN-17fz) and one system showing different photometric and spectroscopic periods (ASASSN-15kw).

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supporting

confidence: 84%

Section: Asassn-15lsmentioning

confidence: 69%

Section: Discussionmentioning

confidence: 99%

Section: Mls 0720+17 (Mls101226:072033+172437)mentioning

confidence: 99%

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High-speed photometry of faint cataclysmic variables – IX. Targets from multiple transient surveys

Paterson

Woudt

Warner

et al. 2019

Monthly Notices of the Royal Astronomical Society

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“…Data were also collected using ULTRASPEC (Dhillon et al 2014), a single-band photometer with a frame-transfer, electron-multiplying CCD and only 15 ms dead time per cycle, which is mounted on the 2.4 m Thai National Telescope (TNT). Most of the ULTRA-SPEC data were taken using a custom filter, KG5 , which has a broader band to allow for shorter exposure times given the smaller collecting area of this telescope (for more details on the KG5 band, see Hardy et al 2017). A further series of eclipses were observed using CHIMERA (Harding et al 2016), a 2-band photometer which uses frame-transfer, electron-multiplying CCDs to achieve 15 ms dead time, and is mounted on the Hale 200-inch (5.1 m) Telescope.…”

Section: Observationsmentioning

confidence: 99%

High-speed photometry of Gaia14aae: an eclipsing AM CVn that challenges formation models

Green

Marsh

Steeghs

et al. 2018

Monthly Notices of the Royal Astronomical Society

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AM CVn-type systems are ultra-compact, hydrogen-deficient accreting binaries with degenerate or semi-degenerate donors. The evolutionary history of these systems can be explored by constraining the properties of their donor stars. We present high-speed photometry of Gaia14aae, an AM CVn with a binary period of 49.7 minutes and the first AM CVn in which the central white dwarf is fully eclipsed by the donor star. Modelling of the lightcurves of this system allows for the most precise measurement to date of the donor mass of an AM CVn, and relies only on geometric and well-tested physical assumptions. We find a mass ratio q = M 2 /M 1 = 0.0287 ± 0.0020 and masses M 1 = 0.87 ± 0.02M and M 2 = 0.0250 ± 0.0013M . We compare these properties to the three proposed channels for AM CVn formation. Our measured donor mass and radius do not fit with the contraction that is predicted for AM CVn donors descended from white dwarfs or helium stars at long orbital periods. The donor properties we measure fall in a region of parameter space in which systems evolved from hydrogen-dominated cataclysmic variables are expected, but such systems should show spectroscopic hydrogen, which is not seen in Gaia14aae. The evolutionary history of this system is therefore not clear. We consider a helium-burning star or an evolved cataclysmic variable to be the most likely progenitors, but both models require additional processes and/or finetuning to fit the data. Additionally, we calculate an updated ephemeris which corrects for an anomalous time measurement in the previously published ephemeris.

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Discovery of deep eclipses in the cataclysmic variable IPHAS J051814.33+294113.0

Kozhevnikov

2018

Astrophys Space Sci

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Performing the photometric observations of the cataclysmic variable IPHAS J051814.33+294113.0, we discovered very deep eclipses. The observations were obtained over 14 nights, had a total duration of 56 hours and covered one year. The large time span, during which we observed the eclipses, allowed us to measure the orbital period in IPHAS J051814.33+294113.0 with high precision, P orb = 0.20603098 ± 0.00000025 d. The prominent parts of the eclipses lasted 0.1 ± 0.01 phases or 30 ± 3 min. The depth of the eclipses was variable in the range 1.8-2.9 mag. The average eclipse depth was equal to 2.42 ± 0.06 mag. The prominent parts of the eclipses revealed a smooth and symmetric shape. We derived the eclipse ephemeris, which, according to the precision of the orbital period, has a formal validity time of 500 years. This ephemeris can be useful for future investigations of the long-term period changes. During the latter four observational nights in 2017 January, we observed the sharp brightness decrease of IPHAS J051814.33+294113.0 by 2.3 mag. This brightness decrease imitated the end of the dwarf nova outburst. However, the long-term light curve of IPHAS J051814.33+294113.0 obtained in the course of the Catalina Sky Survey during 8 years showed no dwarf nova outbursts. From this we conclude that IPHAS J051814.33+294113.0 is a novalike variable. Moreover, the sharp brightness decrease, which we observed in IPHAS J051814.33+294113.0, suggests that this novalike variable belongs to the VY Scl-subtype. Due to very deep eclipses, IPHAS J051814.33+294113.0 is suitable to study the accretion disc structure using eclipse mapping techniques. Because this novalike vari-able has the long orbital period, it is of interest to determine the masses of the stellar components from radial velocity measurements. Then, our precise eclipse ephemeris can be useful to the phasing of spectroscopic data.

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Hunting for eclipses: high-speed observations of cataclysmic variables

Cited by 27 publications

References 108 publications

High-speed photometry of faint cataclysmic variables – IX. Targets from multiple transient surveys

High-speed photometry of faint cataclysmic variables – IX. Targets from multiple transient surveys

High-speed photometry of Gaia14aae: an eclipsing AM CVn that challenges formation models

Discovery of deep eclipses in the cataclysmic variable IPHAS J051814.33+294113.0

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