First Kepler results on compact pulsators - V. Slowly pulsating subdwarf B stars in short-period binaries

Kawaler, S. D.; Reed, M. D.; Østensen, R. H.; Bloemen, S.; Kurtz, D. W.; Quint, A. C.; Silvotti, R.; Baran, A.; Green, E. M; Charpinet, S.; Telting, J. H.; Aerts, C.; Handler, G.; Kjeldsen, H.; Christensen‐Dalsgaard, J.; Borucki, W. J.; Koch, David

doi:10.1111/j.1365-2966.2010.17475.x

Cited by 36 publications

(53 citation statements)

References 59 publications

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“…In the first four quarters of the Kepler mission, a survey for pulsating stars was made, and a total of 113 compact-pulsator candidates were checked for variability by Østensen et al (Østensen et al 2010b;2011 = Paper I). This very successful survey revealed one clear V361-Hya pulsator (Kawaler et al 2010b) and one other transient short-period pulsator, and a total of thirteen V1093-Her stars (Reed et al 2010;Kawaler et al 2010a;Baran et al 2011, Paper II), including an sdB+dM eclipsing binary in which the hot primary shows an exceptionally rich pulsation spectrum (Østensen et al 2010a). Another three V1093-Her pulsators have been identified in the open cluster NGC 6791 (Pablo et al 2011;Reed et al 2012a), bringing the total number of sdBV stars in the Kepler field to eighteen.…”

Section: Introductionmentioning

confidence: 99%

Asteroseismology revealing trapped modes in KIC 10553698A

Østensen

Telting

Reed

et al. 2014

A&A

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The subdwarf-B pulsator, KIC 10553698A, is one of 16 such objects observed with a one-minute sampling rate for most of the duration of the Kepler mission. Like most of these stars, it displays a rich g-mode pulsation spectrum with several clear multiplets that maintain regular frequency splitting. We identify these pulsation modes as components of rotationally split multiplets in a star rotating with a period of ∼41 d. From 162 clearly significant periodicities, we are able to identify 156 as likely components of = 1 or = 2 multiplets. For the first time we are able to detect = 1 modes that interpose in the asymptotic period sequences and that provide a clear indication of mode trapping in a stratified envelope, as predicted by theoretical models. A clear signal is also present in the Kepler photometry at 3.387 d. Spectroscopic observations reveal a radial-velocity amplitude of 64.8 km s −1 . We find that the radial-velocity variations and the photometric signal have phase and amplitude that are perfectly consistent with a Doppler-beaming effect and conclude that the unseen companion, KIC 10553698B, must be a white dwarf most likely with a mass close to 0.6 M .

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Section: Introductionmentioning

confidence: 99%

Asteroseismology revealing trapped modes in KIC 10553698A

Østensen

Telting

Reed

et al. 2014

A&A

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“…Interestingly, Pablo et al (2011) were able to infer a rotation period of 9.63 days of the primary from the characteristic even splitting of the pulsation periods, thereby demonstrating that the rotation of the primary is not synchronised with the orbital period. More recently Pablo et al (2012) have demonstrated that the same is the case for both of the long-period pulsators of Kawaler et al (2010a). Long-period pulsations have also been reported from ground-based studies of the sdB+dM binary GALEX J0321+4727, which has an orbital period of 0.266 d .…”

Section: Introductionmentioning

confidence: 63%

“…Recently, a fourth sdB+dM binary with a pulsating primary was revealed in Kepler data by Pablo et al (2011). This system with an orbital period of 0.399 d is very similar to the two systems presented by Kawaler et al (2010a), but is a member of the open cluster NGC 6791. Interestingly, Pablo et al (2011) were able to infer a rotation period of 9.63 days of the primary from the characteristic even splitting of the pulsation periods, thereby demonstrating that the rotation of the primary is not synchronised with the orbital period.…”

Section: Introductionmentioning

confidence: 93%

“…The most spectacular one is 2M1938+4603 (Østensen et al 2010a), which is an eclipsing binary with a period of 0.126 d, in which the primary pulsates with an unusually high number of low-amplitude modes covering both long and intermediate period ranges. Two non-eclipsing sdB+dM binaries in which the primaries are long-period pulsators of the V1093-Her type were presented by Kawaler et al (2010a), revealing orbital periods of 0.443 and 0.395 days, a range which is difficult to discover with ground based observations. Recently, a fourth sdB+dM binary with a pulsating primary was revealed in Kepler data by Pablo et al (2011).…”

Section: Introductionmentioning

confidence: 99%

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Binaries discovered by the MUCHFUSS project

Østensen

Geier

Schaffenroth

et al. 2013

A&A

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The project Massive Unseen Companions to Hot Faint Underluminous Stars from SDSS (MUCHFUSS) aims to discover subdwarf-B stars with massive compact companions such as overmassive white dwarfs (M > 1.0 M ), neutron stars or black holes. From the 127 subdwarfs with substantial radial-velocity variations discovered in the initial survey, a number of interesting objects have been selected for extensive follow-up. After an initial photometry run with BUSCA revealed that FBS 0117+396 is photometrically variable both on long and short timescales, we chose it as an auxiliary target during a 6-night multi-color photometry run with Ultracam. Spectroscopy was obtained at a number of observatories in order to determine the binary period and obtain a radial-velocity amplitude. After establishing an orbital period of P = 0.252 d, and removing the signal associated with the irradiated hemisphere of the M-dwarf companion, we were able to detect ten pulsation periods in the Fourier spectrum of the light curve. Two pulsation modes are found to have short periods of 337 and 379 s, and at least eight modes are found with periods between 45 min and 2.5 h. This establishes that FBS 0117+396 is an sdB+dM reflection binary, in which the primary is a hybrid pulsator, and the first one found with this particular mélange of flavours.

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“…Kawaler et al (2010) found two compact binaries with gravity-mode pulsations superposed to an irradiation effect typical of sdB stars with a close M-dwarf companion. The orbital periods are less than half a day such that seismic sounding should become possible in the future, once the noise level of the data can be brought down to such a level that tidal and/or rotational splitting can be disentangled from period spacings of the modes.…”

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The Impact of CoRoT and Kepler on Eclipsing Binary Science

2011

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Abstract. The CoRoT and Kepler space missions have opened a new era in eclipsing binary research. While specifically designed for exoplanet search, they offer as by-products the discovery and monitoring of variable stars, in great majority eclipsing binaries (EB). The missions are therefore providing thousands of EB light curves of unprecedented accuracy (typically a few hundred parts per million, ppm), with regular sampling (from 1 s to 29 m ), extending over time spans of months, and with a very high duty cycle (> 90%).Thanks to this excellent photometry, research topics as asteroseismology of EB components are quickly developing, and physical phenomena such as doppler boosting, theoretically predicted but extremely difficult to observe from the ground, have been unambiguously detected. We present the main properties of the Corot and Kepler EB samples and briefly review the highlights of the missions in this field.

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First Kepler results on compact pulsators - V. Slowly pulsating subdwarf B stars in short-period binaries

Cited by 36 publications

References 59 publications

Asteroseismology revealing trapped modes in KIC 10553698A

Asteroseismology revealing trapped modes in KIC 10553698A

Binaries discovered by the MUCHFUSS project

The Impact of CoRoT and Kepler on Eclipsing Binary Science

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