Presentation is loading. Please wait.

Presentation is loading. Please wait.

Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)1 Turning.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)1 Turning."— Presentation transcript:

1 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)1 Turning Cool Star X-ray Spectra Upside Down Klaus Werner University of Tübingen, Germany Jeremy J. Drake CfA, Cambridge, USA

2 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)2 Turning Cool Star X-ray Spectra Klaus Werner University of Tübingen, Germany Jeremy J. Drake CfA, Cambridge, USA Upside Down

3 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)3 Outline The unique, hottest known white dwarf H1504+65 Analysis of Chandra LETG spectroscopy Comparison of photospheric X-ray spectrum with stellar coronae (Procyon, α Cen A+B)  Identification of hitherto unknown coronal lines

4 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)4 Properties of H1504+65 1983 – H1504 is the seventh brightest X-ray source in the 0.25 keV band (HEAO1 survey, Nugent et al.) 1986 – Optical identification: Extremely hot white dwarf, lacking H and He lines (Nousek et al.) 1991 – NLTE analysis of optical spectra (Werner): It is the hottest WD known (T eff close to 200 000 K) H1504 is devoid of hydrogen and helium Dominant photospheric species: C and O (50:50) 1999 – Analysis of EUVE & Keck data (Werner & Wolff) High neon abundance: 2-5% (>20 times solar)

5 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)5 H1504 is an extreme member of the PG1159 spectroscopic class, a strange group of  30 stars: Very hot hydrogen-deficient post-AGB stars T eff = 75,000 – 200,000 K log g= 5.5 – 8 M/M  = 0.52 – 0.86 (mean: 0.6) log L/L  = 1.1 – 4.2 Atmospheres dominated by C, He, O, and Ne, e.g. prototype PG1159-035: He=33%, C=48%, O=17%, Ne=2% (mass fractions) = chemistry of material between H and He burning shells in AGB-stars (intershell abundances)

6 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)6 AGB star structure +CO core material (dredged up) From Lattanzio (2003)

7 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)7 Loss of H-rich envelope probably consequence of late He-shell flash (like Sakurai’s object and FG Sge); strong support by stellar evolution models (Herwig 2001) H-deficient evolutionary post-AGB sequence identified: Wolf-Rayet type central stars of planetary nebulae → PG1159 stars → non-DA white dwarfs

8 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)8 Wolf-Rayet central stars PG1159 stars non-DA white dwarfs

9 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)9 Origin of unique C/O/Ne surface composition of H1504 remains unknown. Obviously, H1504 is a bare C/O core of a former AGB giant. Detection of Mg  2% in Chandra spectrum even suggests: H1504 could be a bare O/Ne/Mg white dwarf, i.e. first observational proof for existence of such objects Approved HST UV-spectroscopy (2005): Search for Na

10 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)10 Chandra LETG+HRC-S observation of H1504+65: Sept. 27, 2000, integration time 7 hours Richest absorption line spectrum ever recorded from a stellar photosphere NLTE spectral analysis: Line blanketed models, Accelerated Lambda Iteration code (Werner et al. 2004, A&A 421, 1169) Examples for spectral fitting:

11 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)11 Model fit to H1504+65 Chandra spectrum 80-110 Å Wavelength / Å Relative flux

12 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)12 Model fit to H1504+65 Chandra spectrum 80-110 Å Wavelength / Å Relative flux

13 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)13 Model fit to H1504+65 Chandra spectrum 80-110 Å Wavelength / Å Relative flux

14 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)14 Model fit to H1504+65 Chandra spectrum 110-140 Å Wavelength / Å Relative flux

15 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)15 Model fit to H1504+65 Chandra spectrum 110-140 Å Wavelength / Å Relative flux

16 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)16 Model fit to H1504+65 Chandra spectrum 110-140 Å Wavelength / Å Relative flux

17 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)17 Strong Fe-group line blanketing

18 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)18 Strong Fe-group line blanketing

19 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)19 Strong Fe-group line blanketing

20 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)20 H1504+65 is the hottest star ever analysed with detailed model atmospheres, but: Why is that relevant to this cool star meeting???

21 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)21 Comparison of H1504+65 photosphere and coronae of Procyon and α CenA+B Idea: temperature in line forming regions of H1504 (up to 300,000 K) approaches low-T component of multi-T fits to coronae, e.g. 630,000 K for Procyon (Raassen et al. 2002) Indeed: Lines from O VI, Ne VI-VIII, Mg VI-IX detectable in both, cool star coronae (in emission) and hot WD photosphere (in absorption) Motivation: Work on H1504 could help to identify hitherto unidentified lines in stellar coronae Why important? (i) Only small fraction of all lines identified in current radiative loss models (Raassen et al. 2002, 2003) (ii) True line flux underestimated by large amount (e.g. factor 5 in 30-70 Å range, Drake et al., in prep. )

22 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)22

23 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)23

24 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)24

25 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)25

26 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)26

27 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)27

28 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)28

29 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)29

30 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)30 Results Comparison of photosphere of hottest white dwarf and cool star coronae reveals large number of spectral lines in common: O VI, Ne VI-VIII, Mg VI-IX We confirm identifications by Raassen et al. (2002, 2003) in the 70 – 150 Å region and We identify new lines from  40 multiplets of O, Ne, Mg

31 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)31

32 Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)32

Download ppt "Institute for Astronomy and Astrophysics, University of Tübingen, Germany July 5, 2004Cool Stars, Stellar Systems and the Sun (Hamburg, Germany)1 Turning."

Similar presentations

Stars Evening Classes Week Three The Sun and Stars Presented by Oisín Creaner.

Stars Evening Classes Week Three The Sun and Stars Presented by Oisín Creaner.
Stellar Atmospheres: Hydrostatic Equilibrium 1 Hydrostatic Equilibrium Particle conservation.

Stellar Atmospheres: Hydrostatic Equilibrium 1 Hydrostatic Equilibrium Particle conservation.
Sakurai’s Object Dr H F Chau Department of Physics HKU Dr H F Chau Department of Physics HKU A Case Of Superfast Stellar Evolution.

Sakurai’s Object Dr H F Chau Department of Physics HKU Dr H F Chau Department of Physics HKU A Case Of Superfast Stellar Evolution.
Introduction to Astrophysics Ronald L. Westra Department Mathematics Maastricht University.

Introduction to Astrophysics Ronald L. Westra Department Mathematics Maastricht University.
Spectral Study of CAL87 Ken Ebisawa (JAXA/ISAS) Dai Takei (Rikkyo University) Thomas Rauch (University of Tuebinen) 1Spectral Study of CAL87.

Spectral Study of CAL87 Ken Ebisawa (JAXA/ISAS) Dai Takei (Rikkyo University) Thomas Rauch (University of Tuebinen) 1Spectral Study of CAL87.
The UV Spectra of the WELS Wagner L. F. Marcolino (1,2) Francisco Xavier de Araujo (2) Helson B. M. Junior (2,3) Eduardo S. Duarte (3) (1) Laboratoire.

The UV Spectra of the WELS Wagner L. F. Marcolino (1,2) Francisco Xavier de Araujo (2) Helson B. M. Junior (2,3) Eduardo S. Duarte (3) (1) Laboratoire.
AGB star intershell abundances inferred from analyses of extremely hot H-deficient post-AGB stars Klaus Werner Institut für Astronomie und Astrophysik.

AGB star intershell abundances inferred from analyses of extremely hot H-deficient post-AGB stars Klaus Werner Institut für Astronomie und Astrophysik.
Institute for Astronomy and Astrophysics, University of Tübingen 13 July 2007X-ray Grating Spectroscopy Cambridge, USA 1 X-ray Photospheres Klaus Werner.

Institute for Astronomy and Astrophysics, University of Tübingen 13 July 2007X-ray Grating Spectroscopy Cambridge, USA 1 X-ray Photospheres Klaus Werner.
Detailed Plasma and Fluorescence Diagnostics of a Stellar X-Ray Flare Paola Testa (1) Fabio Reale (2), Jeremy Drake (3), Barbara Ercolano (3), David Huenemoerder.

Detailed Plasma and Fluorescence Diagnostics of a Stellar X-Ray Flare Paola Testa (1) Fabio Reale (2), Jeremy Drake (3), Barbara Ercolano (3), David Huenemoerder.
S. Hall, C. Winter, C.S. Jeffery October 2008 – December 2008 T C D ABSTRACT The aim of this project is to classify and parameterise a large sample of.

S. Hall, C. Winter, C.S. Jeffery October 2008 – December 2008 T C D ABSTRACT The aim of this project is to classify and parameterise a large sample of.
COOL STARS and ATOMIC PHYSICS Andrea Dupree Harvard-Smithsonian CfA 7 Aug. 2006 High Accuracy Atomic Physics In Astronomy.

COOL STARS and ATOMIC PHYSICS Andrea Dupree Harvard-Smithsonian CfA 7 Aug High Accuracy Atomic Physics In Astronomy.
Astronomers Discover Stars With Carbon Atmospheres Released at November 21, 2007 P. Dufour, J. Liebert, G. Fontaine, N. Behara published the results in.

Astronomers Discover Stars With Carbon Atmospheres Released at November 21, 2007 P. Dufour, J. Liebert, G. Fontaine, N. Behara published the results in.
Post Main Sequence Evolution PHYS390 (Astrophysics) Professor Lee Carkner Lecture 15.

Post Main Sequence Evolution PHYS390 (Astrophysics) Professor Lee Carkner Lecture 15.
Post-AGB evolution. Learning outcome evolution from the tip of the AGB to the WD stage object types along the post-AGB evolution basics about planetary.

Post-AGB evolution. Learning outcome evolution from the tip of the AGB to the WD stage object types along the post-AGB evolution basics about planetary.
Lecture 15PHYS1005 – 2003/4 Lecture 16: Stellar Structure and Evolution – I Objectives: Understand energy transport in stars Examine their internal structure.

Lecture 15PHYS1005 – 2003/4 Lecture 16: Stellar Structure and Evolution – I Objectives: Understand energy transport in stars Examine their internal structure.
Wavelength flux Spectral energy distributions of bright stars can be used to derive effective temperatures Ay 123 Lecture I - Physical Properties.

Wavelength flux Spectral energy distributions of bright stars can be used to derive effective temperatures Ay 123 Lecture I - Physical Properties.
Nov. 6, 2008Thanks to Henrietta Leavitt Cepheid Multiplicity and Masses: Fundamental Parameters Nancy Remage Evans.

Nov. 6, 2008Thanks to Henrietta Leavitt Cepheid Multiplicity and Masses: Fundamental Parameters Nancy Remage Evans.
Structure of circumstellar envelope around AGB and post-AGB stars Dinh-V-Trung Sun Kwok, P.J. Chiu, M.Y. Wang, S. Muller, A. Lo, N. Hirano, M. Mariappan,

Structure of circumstellar envelope around AGB and post-AGB stars Dinh-V-Trung Sun Kwok, P.J. Chiu, M.Y. Wang, S. Muller, A. Lo, N. Hirano, M. Mariappan,
Guiding Questions How far away are the stars?

Guiding Questions How far away are the stars?
Vadim Burwitz EPIC Cal., Nov 6, 2007 Update on the Low Energy Isolated Neutron Star and White Dwarf Cross-Calibration Standards Vadim Burwitz EPIC Calibration.

Vadim Burwitz EPIC Cal., Nov 6, 2007 Update on the Low Energy Isolated Neutron Star and White Dwarf Cross-Calibration Standards Vadim Burwitz EPIC Calibration.

Similar presentations

Ads by Google