Your search keyword '"Kafka, Stella"' showing total 8 results

1. The Heating and Pulsations of V386 Serpentis after Its 2019 Dwarf Nova Outburst.

Author

Szkody, Paula, Godon, Patrick, Gänsicke, Boris T., Kafka, Stella, Castillo, Odette F. T., Bell, Keaton J., Cho, P. B., Sion, Edward M., Kumar, Praphull, Townsley, Dean M., Vanderbosch, Zach, Winget, Karen I., and Loohuis, Claire J. Olde

Subjects

DWARF novae, ULTRAVIOLET spectra, ASTRONOMICAL photometry, SPACE telescopes, COOLING

Abstract

Following the pulsation spectrum of a white dwarf through the heating and cooling involved in a dwarf nova outburst cycle provides a unique view of the changes to convective driving that take place on timescales of months versus millennia for nonaccreting white dwarfs. In 2019 January the dwarf nova V386 Ser (one of a small number containing an accreting, pulsating white dwarf) underwent a large-amplitude outburst. Hubble Space Telescope ultraviolet spectra were obtained 7 and 13 months after outburst along with optical ground-based photometry during this interval and high-speed photometry at 5.5 and 17 months after outburst. The resulting spectral and pulsational analysis shows a cooling of the white dwarf from 21,020 to 18,750 K (with a gravity) between the two UV observations, along with the presence of strong pulsations evident in both UV and optical at a much shorter period after outburst than at quiescence. The pulsation periods consistently lengthened during the year following outburst, in agreement with pulsation theory. However, it remains to be seen if the behavior at longer times past outburst will mimic the unusual nonmonotonic cooling and long periods evident in the similar system GW Lib. [ABSTRACT FROM AUTHOR]

Published

2021

2. Celebrating a century of VARIABLE STAR astronomy.

Author

KAFKA, STELLA

Subjects

ASTRONOMY, VARIABLE stars, PHYSICAL laws

Abstract

In 1911, amateur astronomer William Tyler Olcott officially formed the American Association of Variable Star Observers (AAVSO) under the guidance of Harvard College Observatory Director Edward C. Pickering. FEATURES GLO:ast/01sep21:54n1.jpg PHOTO (BLACK & WHITE): FAR LEFT: This photo was taken at the Annual Meeting of the AAVSO on Nov. 10, 1917, held at Harvard College Observatory in Cambridge, Massachusetts. [Extracted from the article]

Published

2021

3. A nova outburst powered by shocks.

Author

Kwan-Lok Li, Metzger, Brian D., Chomiuk, Laura, Vurm, Indrek, Strader, Jay, Finzell, Thomas, Beloborodov, Andrei M., Nelson, Thomas, Shappee, Benjamin J., Kochanek, Christopher S., Prieto, José L., Kafka, Stella, Holoien, Thomas W.-S., Thompson, Todd A., Luckas, Paul J., and Hiroshi Itoh

Published

2017

4. Accreting pulsating white dwarfs: Probing heating and rotation.

Author

Szkody, Paula, Gänsicke, Boris, Toloza, Odette, Godon, Patrick, Sion, Edward, Kafka, Stella, Bell, Keaton, Vanderbosch, Zachary, Barstow, Martin A., Kleinman, Scot J., Provencal, Judith L., and Ferrario, Lilia

Abstract

The white dwarfs in close, interacting binaries provide a natural laboratory for exploring the effects of heating and angular momentum from the accreting material arriving on the surface from the companion. This study is even more fruitful when it involves a pulsating white dwarf, which allows an exploration of the effects of the accretion on the interior as well as in the atmosphere. The last decade has seen the accomplishment of UV (HST) and optical (ground) studies of several accreting white dwarfs that have undergone a dwarf nova outburst that heated the white dwarf and subsequently returned to its quiescent temperature. The most recent study involves V386 Ser, which underwent its first known outburst in January 2019, after 19 years at quiescence. V386 Ser is unique in that its quiescent pulsation shows a triplet, with spacing indicating a rotation period of 4.8 days, extremely slow for accreting white dwarfs. This paper presents the result of HST ultraviolet spectra obtained 7 months after its outburst that shows the first clear confirmation of shorter period modes being driven following the heating from a dwarf nova outburst. [ABSTRACT FROM AUTHOR]

Published

2019

5. Forecasting Life: A Study of Activity Cycles in Low-Mass Stars.

Author

Kafka, Stella

Abstract

Magnetic activity cycles are indirect traces of magnetic fields and can provide an insight on the nature and action of stellar dynamos and stellar magnetic activity. This, in turn, can determine local space weather and activity effects on stellar habitable zones. Using photometric monitoring of low-mass stars, we study the presence and properties of their magnetic activity cycles. We introduce long-term light curves of our sample stars, and discuss the properties of the observed trends, especially at spectral types where stars are fully convective (later than M3). [ABSTRACT FROM AUTHOR]

Published

2012

6. Challenges to Observations of Low Mass Binaries.

Author

Kafka, Stella

Abstract

Low mass stars in binaries are frequently used as unique tools to determine and establish fundamental stellar parameters. The need for their study and understanding has led to developing new instruments, new observational techniques and improved theoretical models. The relatively recent discovery of exoplanets and their study as the low-mass constituents around other stars is now opening new horizons in binary research. Here, I examine the most common observational challenges in studying low mass binaries across the electromagnetic spectrum. [ABSTRACT FROM PUBLISHER]

Published

2011

7. The Changing Nature of QU Carinae: SN Ia Progenitor or a Hoax?

Author

Kafka, Stella

Abstract

The race to the elusive Type Ia supernovae (SNe Ia) progenitors is at its zenith, with numerous clues from SNe Ia ejecta and a dearth of observational candidates. Still, the single degenerate channel is a viable route of mass accumulation onto a white dwarf to the Chandrasekhar limit. I present long-term high resolution spectroscopy of QU Carinae, one of the most promising single degenerate SNe Ia progenitors. I discuss its highly variable nature and compare it to current scenarios for mass accumulation onto high-mass white dwarfs, eventually leading to WD detonation and to a supernova explosion. [ABSTRACT FROM PUBLISHER]

Published

2011

8. EXPLORE THE UNIVERSE: and contribute to science with the AAVSO.

Author

Kafka, Stella

Subjects

UNIVERSE, SOLAR system, VARIABLE stars, STELLAR magnitudes, STAR clusters, PLANETARY nebulae

Published

2021