2021
DOI: 10.1093/mnras/stab389
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Evidence that short-period AM CVn systems are diverse in outburst behaviour

Abstract: We present results of our analysis of up to 15 years of photometric data from eight AM CVn systems with orbital periods between 22.5 and 26.8 min. Our data has been collected from the GOTO, ZTF, Pan-STARRS, ASAS-SN and Catalina all-sky surveys and amateur observations collated by the AAVSO. We find evidence that these interacting ultra-compact binaries show a similar diversity of long term optical properties as the hydrogen accreting dwarf novae. We found that AM CVn systems in the previously identified accret… Show more

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Cited by 15 publications
(20 citation statements)
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“…A few systems that have been studied with targeted long ground-based photometric campaigns have been found to show some candidate NOs (e.g. Kato et al 2000;Levitan et al 2011;Duffy et al 2021), but many of these remain unconfirmed. Due to their short durations and inadequate cadence in the wide-field ground-based transient surveys, the NOs can be missed entirely, or merged or confused with a SO, and their durations and peak brightnesses cannot be adequately measured.…”
mentioning
confidence: 99%
“…A few systems that have been studied with targeted long ground-based photometric campaigns have been found to show some candidate NOs (e.g. Kato et al 2000;Levitan et al 2011;Duffy et al 2021), but many of these remain unconfirmed. Due to their short durations and inadequate cadence in the wide-field ground-based transient surveys, the NOs can be missed entirely, or merged or confused with a SO, and their durations and peak brightnesses cannot be adequately measured.…”
mentioning
confidence: 99%
“…The nine new AM CVn systems are typical for outbursting AM CVn systems (Duffy et al 2021) and show both outbursts and superoutbursts. In some cases, there are hints of "dips" a few days after the peak of a superoutburst.…”
Section: Characterization Of Nine New Am Cvn Systemsmentioning
confidence: 95%
“…The accretion rate is high and the systems are in a constant "high state" (e.g., Roelofs et al 2006b;Kupfer et al 2015;Wevers et al 2016;Green et al 2018b). Intermediate period systems (22  P  45 minutes) form an accretion disk and behave similarly to hydrogen-rich CVs; they show outbursts and superoutbursts (Kotko et al 2012), as well as flickering in their light curves (see Duffy et al 2021). As the orbital period increases, the outburst recurrence time increases exponentially (Levitan et al 2015) and the luminosity of the disk decreases (Nelemans et al 2004).…”
Section: Introductionmentioning
confidence: 99%
“…A revision of the orbital and spin periods of the polar CD Ind based on TESS data led to a new interpretation of its accretion (Littlefield et al [330]), AM CVn systems are the more evolved friends of CVs, containing two white dwarfs where the larger and less massive one fills its Roche lobe and undergoes mass loss. The outbursts and superoutbursts of these objects remain poorly understood due to the diversity of behaviour as a function of orbital period (Duffy et al [331]). TESS has seen outbursts of several AM CVn systems and these observations are leading to an improved understanding of these extreme objects [331,332].…”
Section: Evolved Binariesmentioning
confidence: 99%
“…The outbursts and superoutbursts of these objects remain poorly understood due to the diversity of behaviour as a function of orbital period (Duffy et al [331]). TESS has seen outbursts of several AM CVn systems and these observations are leading to an improved understanding of these extreme objects [331,332].…”
Section: Evolved Binariesmentioning
confidence: 99%