Spiral Structure in WZ Sagittae around the 2001 Outburst Maximum

Baba, Hajime; Sadakane, Kozo; Norimoto, Yuji; Ayani, K.; Ioroi, Masayuki; Matsumoto, Katsura; Nogami, Daisaku; Makita, M.; Katô, Takeo

doi:10.1093/pasj/54.1.l7

Cited by 47 publications

(62 citation statements)

References 19 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…This is clearly L44 R. Ishioka et al: First detection of the growing humps contrary to our observation. This is also supported by Doppler tomography of the earliest stage of the superoutburst (Baba et al 2001b;Kuulkers et al 2002). The strongest emission on velocity maps reside on the opposite side of the expected hot spot, excluding an increased mass-transfer as the origin of the strong emissions.…”

Section: Discussionmentioning

confidence: 67%

“…On July 23, just after the outburst onset, He ii λ4686 shows no emission componemt, but on July 24, the line was observed as a strong emission line. The Doppler maps of He ii λ4686 constructed using time-resolved spectra on July 24 and July 28 show that the accretion-disk emission is dominated by two spiral arms (Ishioka et al 2001;Steeghs et al 2001;Baba et al 2001a;Baba et al 2001c;Kuulkers et al 2002). This result indicates that some relation exists between the growth of He ii emission line and the spiral structure, and the observed growth of early superhumps.…”

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

First detection of the growing humps at the rapidly rising stage of dwarf novae AL Com and WZ Sge

Ishioka

Uemura

Matsumoto

et al. 2002

A&A

View full text Add to dashboard Cite

Abstract. We report on time-series photometric observations in the earliest stages of superoutbursts of the extreme dwarf novae, AL Com and WZ Sge, which started on 2001 May after the 6 years quiescence and on 2001 July after the 23 years quiescence, respectively. We detected the growth of "early superhumps" during the each rising stage. Our observations reject the mass transfer instability for the trigger of the superoutburst of WZ Sge stars, and show the existence of some relations between the "early superhumps" and the spiral structure, which gives a hint of the origin of the "early superhumps."

show abstract

Section: Discussionmentioning

confidence: 67%

Section: Discussionmentioning

confidence: 99%

First detection of the growing humps at the rapidly rising stage of dwarf novae AL Com and WZ Sge

Ishioka

Uemura

Matsumoto

et al. 2002

A&A

View full text Add to dashboard Cite

show abstract

“…During the early stage of the 2001 outburst of WZ Sge, a twoarmed arch-like pattern was observed in the Doppler maps of emission lines of He II 4686 Å and C III/N III on the second day of the outburst, July 24, (Baba et al 2002) and on July 28 (Steeghs et al 2001a). Kato (2002) has proposed that this and the early hump phenomenon can be understood in terms of irradiation of the disk by the central radiation source.…”

Section: Appendix A: Comments On Kato's (2002) Model For Early Humpsmentioning

confidence: 99%

Is evidence for enhanced mass transfer during dwarf-nova outbursts well substantiated?

Osaki

Meyer

2003

A&A

171

View full text Add to dashboard Cite

Abstract. Outburst mechanisms of SU UMa-type dwarf novae are discussed. Two competing models were proposed; a pure disk instability model called the thermal-tidal instability model (TTI model) and the enhanced mass transfer model (EMT model). Observational evidence for enhanced mass transfer from the secondary star during outbursts is critically examined. It is demonstrated that most evidence for enhanced mass transfer is not well substantiated. Patterson et al. (2002) have recently claimed to have found evidence for enhanced mass transfer during the 2001 outburst of WZ Sge. We show that their evidence is probably due to a misinterpretation of their observed light curves. Our theoretical analysis also shows that irradiation during outburst should not affect the mass transfer rate. A refinement of the TTI model is proposed that can explain why superhumps appear a few days after the superoutburst maximum in some SU UMa stars. We present our own interpretation of the overall development of the 2001 outburst of WZ Sge based on the TTI model that does not require the assumption of an unproved enhanced mass transfer.

show abstract

“…The main characteristics of the prototype of the subclass (WZ Sge) are summarized below: the short orbital period of 81.6min, close to the predicted period minimum; the spectra in quiescence show the strong double-peaked Balmer emission lines from the accretion disk surrounded by broad absorptions, formed by the primary white dwarf (see for an example [25]); infrequent ∼20-30 years and the large-amplitude (∼ 8 m ; 1913,1946,1978,2001) superoutbursts succeeded by echo outbursts, there are not normal outbursts; optical light curves during "s" -during super-outbursts; "q" -during quiescence; "-" absent of double-humps in LCs. Recent bounce-back candidates: OT J075418.7+381225, OT J230425.8+062546 [35], SSS J122221.7-311523 [36,37] a super-outburst show long-lasting super-humps [26]; there are double-humped in the light curves during super-outbursts and in quiescence [27,26]; there are evidence of forming of spiral arms in the disk during super-outbursts [28,29]; the accretion disc is asymmetric in quiescence, and the bright spot region is to be extended along the mass transfer stream [30,31]; the outer layers of the accretion disc is a low density and a low temperature of ∼3000K [32]; there is some evidence that a cavity was formed in the inner part of the disk during quiescence implying an annulus-shaped accretion disc [33]. The number of WZ Sge-type stars increases with decreasing orbital periods and they seem to be a continuation of the evolution of SU UMa-type stars when mass transfer rates begin to drop closely to the period minimum (Fig.…”

Section: Er Uma-type Starsmentioning

confidence: 99%

Short Orbital Period Cataclysmic Variables

Zharikov¹

2017

Proceedings of the Golden Age of Cataclysmic Variables and Related Objects - III — PoS(Golden2015)

View full text Add to dashboard Cite

Cataclysmic Variables (CVs) are semi-detached binary systems consisting red/brown dwarfs filling its corresponding Roche lobe and loosing matter onto white dwarf (WD) companions. Classification of CVs is based on behavior of outbursts. In this report, we review properties of Short Orbital Period Cataclysmic Variables (77 min < P orb < 120 min). In mentioned orbital period range three subclasses of CVs were distinguished: SU UMa-, ER UMa-and WZ Sge-type objects. WZ Sge-type objects more probably includes also systems evolved past of the period minimum. The last are formed so-called bounce-backs or post-period minimum systems. Main characteristics of WDs, donor stars and accretion disks in the Short Orbital Period Cataclysmic Variables are discussed.

show abstract

Spiral Structure in WZ Sagittae around the 2001 Outburst Maximum

Cited by 47 publications

References 19 publications

First detection of the growing humps at the rapidly rising stage of dwarf novae AL Com and WZ Sge

First detection of the growing humps at the rapidly rising stage of dwarf novae AL Com and WZ Sge

Is evidence for enhanced mass transfer during dwarf-nova outbursts well substantiated?

Short Orbital Period Cataclysmic Variables

Contact Info

Product

Resources

About