Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen Compact Pulsators Observed by Kepler Roy H. Østensen KU Leuven, Belgium.

Slides:

Advertisements

Similar presentations

Am/Fm STARS. General properties Teff > 6100 K (o Leo) Teff < about K (transition area to HgMn stars) Main sequence stars Slow rotation: vsini

Advertisements

Small is Beautiful: Cataclysmic Variables from the SDSS John Southworth Boris Gänsicke Tom Marsh + many others.

Dr Matt Burleigh The Sun and the Stars. Dr Matt Burleigh The Sun and the Stars Binary stars: Most stars are found in binary or multiple systems. Binary.

Progress in the asteroseismic analysis of the pulsating sdB star PG S. Charpinet (Laboratoire d’Astrophysique de Toulouse) G. Fontaine and P.

Solar-like Oscillations in Red Giant Stars Olga Moreira BAG.

Prospects for asteroseismology of solar-like stars T. Appourchaux Institut d’Astrophysique Spatiale, Orsay.

Reaching the 1% accuracy level on stellar mass and radius determinations from asteroseismology Valerie Van Grootel (University of Liege) S. Charpinet (IRAP.

Exoplanet- Asteroseismology Synergies Bill Chaplin, School of Physics & Astronomy University of Birmingham, UK EAHS2012, Oxford, 2012 March 15.

SOLUTION 1: ECLIPSING BINARIES IN OPEN CLUSTERS The study of eclipsing binaries in open clusters allows strong constraints to be placed on theoretical.

Thanks to Henrietta Swan Leavitt, Harvard CfA November 5th Hommage to Henrietta Leavitt from the CoRoT Team Annie BAGLIN, Merième CHADID,

Somak Raychaudhury  Two-body problem  Binary stars  Visual  Eclipsing  Spectroscopic  How to find extrasolar planets.

Variable Stars clues: timescale, amplitude, light curve shape, spectrum Eclipsing: Algol ß Lyr W UMa B8-M (hrs-days) B8-G3 F0-K0 (hrs)‏ Eruptive: single.

Exoplanet Transits and SONG Angelle Tanner. Venus Transiting the Sun.

The Search for Earth-sized Planets Around Other Stars The Kepler Mission (2009)

The Stars: A Celestial Census

Extra-Solar Planets Astronomy 311 Professor Lee Carkner Lecture 24.

Extra-Solar Planets Astronomy 311 Professor Lee Carkner Lecture 24.

Marc Pinsonneault (OSU).  New Era in Astronomy  Seismology  Large Surveys  We can now measure things which have been assumed in stellar modeling 

Nonradial Oscillations. The Science Case:  Stellar Ages - directly for individual stars  Age determination is direct and reliable  Ages to stars which.

PLAnetary Transits and Oscillations of stars Thierry Appourchaux for the PLATO Consortium

22 March 2005 AST 2010: Chapter 171 The Stars: A Celestial Census.

Properties of Stars. Distance Luminosity (intrinsic brightness) Temperature (at the surface) Radius Mass.

Katrien Uytterhoeven The Kepler space mission: New prospects for δ Sct, γ Dor, and hybrid stars Instituto de Astrofísica de Canarias, Tenerife NMSU, January.

Mass Determinations of Short Period CV Donors Authors: Christopher D.J. Savoury*, S.P Littlefair*, V.S. Dhillion*, T.R. Marsh #, B.T. Gänsicke #, *The.

What stellar properties can be learnt from planetary transits Adriana Válio Roque da Silva CRAAM/Mackenzie.

Adriana V. R. Silva CRAAM/Mackenzie COROT /11/2005.

Asteroseismology of the ZZ Ceti star KUV

The formation of sdB stars vvv Influence of substellar bodies on late stages of stellar evolution Valerie Van Grootel (1) S. Charpinet (2), G. Fontaine.

10/9/ Studying Hybrid gamma Doradus/ delta Scuti Variable Stars with Kepler Joyce A. Guzik (for the Kepler Asteroseismic Science Consortium) Los.

Subaru HDS Transmission Spectroscopy of the Transiting Extrasolar Planet HD b The University of Tokyo Norio Narita collaborators Yasushi Suto, Joshua.

A Search for Earth-size Planets Borucki – Page 1 Roger Hunter (Ames Research Center) & Kepler Team March 26, 2010.

The asteroseismic analysis of the pulsating sdB Feige 48 revisited V. Van Grootel, S. Charpinet, G. Fontaine P. Brassard, E.M. Green and P. Chayer.

Properties of Stars.

C R I M E A Activity of five WZ Sge- type systems in a few years after their outbrsts E.P. Pavlenko, O.I. Antoniuk, K.A. Antoniuk, D.A. Samsonov, A.V.

Physical properties. Review Question What are the three ways we have of determining a stars temperature?

Goal: To understand binary stars Objectives: 1)To review why we get binary star systems 2)To learn about the 2 different binary star types and how we find.

Travis Metcalfe (NCAR) Asteroseismology with the Kepler Mission We are the stars which sing, We sing with our light; We are the birds of fire, We fly over.

FUSE and RS CVns: Stellar Atmospheres, Magnetism, Binary Stars, and High-Resolution Spectroscopy Dr. Seth Redfield.

Asteroseismology A brief Introduction

Precision stellar physics from the ground Andrzej Pigulski University of Wrocław, Poland Special Session #13: High-precision tests of stellar physics from.

Steve B. Howell NOAO.  The Kepler mission consists of a 1- m telescope and CCD camera, designed to measure Earth-like transiting planets orbiting solar-

The Empirical Mass Distribution of Hot B Subdwarfs derived by asteroseismology and other means Valerie Van Grootel (1) G. Fontaine (2), P. Brassard (2),

GD 358: The Case for Oblique Pulsation and Temperature Change Mike Montgomery (UT-Austin, DARC), J. L. Provencal, A. Kanaan, A. S. Mukadam, S. E. Thompson,

Asteroseismology and the Time Domain Revolution in Astronomy Marc Pinsonneault Ohio State University Collaborators: The APOKASC team Melissa Ness Marie.

Travis Metcalfe Space Science Institute + Stellar Astrophysics Centre Probing Stellar Activity with Kepler.

Asteroseismology with A-STEP The sun from the South Pole Grec, Fossat & Pomerantz, 1980, Nature, 288, 541.

Hunting down the subdwarf populations Peter Nemeth Roy Østensen and Joris Vos KU Leuven, Belgium; In collaboration with Stephane Vennes and Adela Kawka.

The Role of Transiting Planets Dave Latham (CfA) 30 May 2008.

Kepler Mission. Transit Method Planetary transits cause some light from a star to be blocked. The change in light is small for exoplanets. –Hard to detect.

The Saga of Procyon Pierre Demarque Yale University “Stars in Motion” A Symposium in honor of Bill van Altena September

Sounding the cores of stars by gravity-mode asteroseismology Valerie Van Grootel (Institut d’Astrophysique, University of Liege, Belgium) Main collaborators.

Subdwarf B stars from He white dwarf mergers Haili Hu.

Internal dynamics from asteroseismology for two sdB pulsators residing in close binary systems Valérie Van Grootel (Laboratoire d’Astrophysique de Toulouse.

Properties of Stars. "There are countless suns and countless earths all rotating around their suns in exactly the same way as the seven planets of our.

Takashi Sekii Division of Solar and Plasma Astrophysics and Hinode Science Center NAOJ Rotation of KIC

Globular Clusters Globular clusters are clusters of stars which contain stars of various stages in their evolution. An H-R diagram for a globular cluster.

Nordforsk 2012, Moletai, 2012/08/03 - Roy H. Østensen Observational Asteroseismology of Hot Subdwarf Stars ___ Roy H. Østensen KU Leuven, Belgium.

Spectroscopy and the evolution of hot subdwarf stars

The Kepler Mission S. R. Kulkarni.

Hot subdwarfs from the SDSS/BOSS

COROT, COnvection, ROtation & Transits exoplanétaires

RR Lyrae Research with the Kepler Mission

Ageing low-mass stars: from red giants to white dwarfs

Goal: To learn about the Kepler Mission and the Transit Method

Pulsar Timing Score = 33 How it works

ASTEROSEISMOLOGY OF LATE STAGES OF STELLAR EVOLUTION

The SMARTS Southern HK Project

The University of Tokyo Norio Narita

Status Report on Search for Double Degenerates with ZTF

The Link Between Underluminous Supernovae Explosions, Gravitational Waves and Extremely Low Mass White Dwarfs Alex Gianninas Mukremin Kilic, Warren Brown,

Presentation transcript:

Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen Compact Pulsators Observed by Kepler Roy H. Østensen KU Leuven, Belgium

Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen Introduction Today I will introduce the KASC survey for compact pulsators in the Kepler field Most of these pulsators are hot subdwarf stars – the details of which are tomorrows subject Compact variables are characterised by short period variations that requires short integration cycles to resolve The two observing modes of Kepler are Short Cadence and Long Cadence; only SC is useful for most compact pulsators!

Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen The Kepler Spacecraft Spacecraft in Earth-trailing orbit, launched 7 March, 2009 Schmidt telescope: 0.95m aperture, 1.4m primary FoV: 105 deg 2, ~4” per pixel 430 – 890 nm passband Fixed field in the Cygnus-Lyra region Detectors: 42CCDs w/2200x1024 pixels Dynamic range: 9 th to 16 th mag. Integration time is 6.02s, 0.52s readout Short cadence: sum of 9 frames: 59s Long cadence: sum of 270: 29.5m Telemetry: Earth downlink every month only data for selected targets are transmitted Mission length; originally 3.5 years, now extended to 7.5 years (through 2016)

Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen Kepler's 105 deg 2 FoV The KASC survey for compact pulsators targeted 100 pre-launch selected candidates Several recent and ongoing surveys have been undertaken since

Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen What's a compact pulsator? Heber 2009, ARA&A Evolved stars that reside below the main sequence Mainly sdB pulsators, but also sdO and white dwarfs

Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen The KASC Compact Pulsator Survey checked 110 candidates Pulsating hot subdwarf stars V361 Hya (p-mode) 2 V1093 Her (g-mode) 11 V1093 Her sdB+dM 2 Hybrid eclipsing sdB+dM 1 Cataclysmic variables Nova-like 2 AM Cvn 1 Non-pulsating compact binaries Eclipsing sdB+WD 1 Beaming sdB+WD 2 Non-eclipsing sdO/B+dM 2 sdO/B+F/G/K w/var. comp's 10 Pulsating white dwarf stars ZZ Ceti pulsators (DAVs)1 V777 Her pulsators (DBVs)1 See Østensen et al. 2010, 2011 for the full list of compact pulsators and binaries, and example light- curves

Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen The Kepler sample of sdBVs Pulsating EHB stars in the BG sample and Kepler field (red core) Green: V391 Hya stars Purple: V1093 Her stars Blue: Hybrid DW Lyns Black/Brown: Non- pulsators Triangles: sdB+dM Stars: sdB+WD Bullets: single/unknown From a survey of compact pulsators in the Kepler field: Østensen, Silvotti, Charpinet et al. (2010, MNRAS 409, 1470; 2011, MNRAS 414, 2860)

Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen The Kepler sample of sdBVs

Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen KIC = Saradoc The only clear short-period sdBV in the Kepler field Extensive Kepler short-cadence monitoring has revealed some extraordinary complex pulsation patterns Models are currently far from adequate to explain the complex frequency spectrum Aseroseismic mode-ID is therefore currently limited to exploring frequency separations and multiplet structures It is clear that Saradoc (and all the other sdB pulsators that are not in extremely short period binary orbits) are slow rotators

Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen KIC = Saradoc

Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen KIC = Saradoc Pulsation peaks beyond the Nyquist limit; the shortest period pulsations detected by Kepler

Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen Long-period sdB pulsators It has been demonstrated that all the V1093 Her pulsators found in the Kepler field show regular l=1 and l=2 period spacing sequences These sequences follow asymptotic theory more closely than atmospheric models predict, which implies that the envelopes are more homogenous than the standard models have presumed (more diffusion or convection processes are required). This permits direct mode identification from the frequency spectra of most modes observed

Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen KIC = Mungo Telting et al (2012, A&A 544, A1) analysed Q6 – Q10 data and spectroscopy, and found it to be an sdB+WD binary (non-eclipsing) with a 10d orbital period They measured the orbit in 3 independent ways Spectroscopic radial velocities; K1 = /- 1.7 km/s Doppler beaming from Kepler light-curve Rømer delay in pulsations Orbital frequency

Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen KIC = Mungo When the Kepler data is folded on the orbital period, a sinosoidal modulation lines up with the spectroscopic RVs NB: This week's cover illustration for

Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen KIC = KPD

Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen KIC = Mungo The Rømer delay is the difference in light travel time as one star (or planet) orbits another In eclipsing binaries it leads to an offset in the times of primary and secondary eclipse For a pulsating star like Mungo, the Rømer delay produces phase shifts in the arrival times of the light curves

Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen KIC = Mungo

Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen KIC = Mungo

Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen Long-period sdB pulsators Latest news: Two new pulsating sdB stars was detected in the cluster NGC 6791 from Q11 1-month DDT-time runs. They are KIC = B3 & KIC = B5 These two come in addition to the sdBV+dM binary pulsator already known (KIC = B4, Pablo et al. 2011, ApJ 740, 47) One short-period pulsator candidate was also investigated (B6), but is not a pulsator

Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen Long-period sdB pulsators Latest news:

Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen NGC 6791 B4 B5 B6 B3

Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen KIC = Largo Østensen et al (2012, ApJL 753, 17) analysed public long cadence data of KIC , and found that it shows a similar period spacing structure as the V1093 Her pulsators It is different from normal sdB stars in several ways It's surface gravity is less than 5, i.e. it is not a classic EHB star It is rather helium rich, where as normal sdB stars are helium depleted (typicallly by a factor 10 to 100 wrt solar abundance)

Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen KIC = Largo

Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen KIC = Largo

Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen KIC = Largo An echelle diagram for g-modes is different than for p-modes; Period instead of frequency The separation period is different for different angular degree, l So one has to make one diagram for each l Largo has a very regular period spacing pattern, where all modes can be identified This implies a thicker envelope with more mixing, than for regular sdB stars Note the rotational splitting diverging due to the inverse relationship with period

Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen Largo is the first pulsator on the blue HB

Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen KIC : A V777 Her pulsator (DBV) Østensen et al (2011, ApJL 736, 39) obtained Kepler short cadence DDT time (Q7.2) of the first pulsating WD found in the Kepler field The 1-month dataset contained 11 pulsation peaks, of which 9 formed neatly spaced triplets, allowing them to be associated with rotationally split triplets The target will hopefully be observed for the remainder of the mission, permitting the most detailed asteroseismic modelling of a WD ever Before the end of the Kepler mission, we will hopefully be able to detect the period changes associated with cooling of the WD

Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen Asteroseismology from DBV modeling

Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen The V777 Her with 6 months of SC data

Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen The V777 Her with 6 months of SC data

Nordforsk 2012, Moletai, August 2, 2012 Roy H. Østensen Things to keep in mind... Compact stars are faint and the pulsators are rare, and they are normally not targeted through the Kepler planet search Any attempt at detecting compact pulsators must start with some survey data Anybody who finds a good pulsator candidate can propose it as a target through the Kepler DDT or GO programs Most compact pulsators require short cadence data, which is a limited resource, but white dwarf pulsators are very competitive There are still many white dwarf pulsators waiting to be found!