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.

Slides:

Advertisements

Similar presentations

Physical conditions of the shocked regions in collimated outflows of planetary nebulae Angels Riera (UPC)

Advertisements

Spectro-imaging observations of H 3 + on Jupiter Observatoire de Paris, France Emmanuel Lellouch.

1 Do post-common envelope objects form a distinct subset of PNe? David J. Frew Perth Observatory & Macquarie University Q.A. Parker and the MASH Collaboration.

The old nova HR Del M. Friedjung 1, M. Dennefeld 1, I. Voloshina 2 1 Institut d’Astrophysique de Paris, UMR 7095, CNRS Universite Pierre et Marie Curie,

August 22, 2006IAU Symposium 239 Observing Convection in Stellar Atmospheres John Landstreet London, Canada.

Lyα Pumped Molecular Hydrogen Emission in the Planetary Nebulae NGC 6853 and NGC 3132 R.E. Lupu, K. France and S.R. McCandliss Johns Hopkins University,

Metallicity Dependent Wolf-Rayet winds Metallicity Dependent Wolf-Rayet winds PAUL CROWTHER.

 Wolf-Rayet Stars & the Luminous Blue Variables 2014/11/12 Wednesday Luqian Wang.

Line Shapes in Hot Stars: Hydrodynamics & Wind Mass-Loss Rates David Cohen Swarthmore College with Maurice Leutenegger, Stan Owocki, Rich Townsend, Emma.

Mike Crenshaw (Georgia State University) Steve Kraemer (Catholic University of America) Jack Gabel (University of Colorado) NGC 4151 Mass Outflows from.

COOL STARS and ATOMIC PHYSICS Andrea Dupree Harvard-Smithsonian CfA 7 Aug High Accuracy Atomic Physics In Astronomy.

Age-Activity-Rotation Relationship in Solar-Type Stars

Astronomers Discover Stars With Carbon Atmospheres Released at November 21, 2007 P. Dufour, J. Liebert, G. Fontaine, N. Behara published the results in.

Ionization, Resonance excitation, fluorescence, and lasers The ground state of an atom is the state where all electrons are in the lowest available energy.

A Wind Analysis of an Evolved Giant Phase Resolved FUSE and HST/STIS Observations of an Eclipsing Symbiotic Binary Cian Crowley Dr. Brian Espey Trinity.

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.

NASA's Chandra Sees Brightest Supernova Ever N. Smith et al. 2007, astro-ph/ v2.

Hot Gas in Planetary Nebulae You-Hua Chu Robert A. Gruendl Martín A. Guerrero Univ. of Illinois.

An ultraviolet spectral library of metal-poor OB stars C. J. Evans 1, D. J. Lennon 1, N. R. Walborn 2, C. Trundle 1,3, S. A. Rix 1 1) Isaac Newton Group,

Distances to PNe using angular expansion parallax Lizette Guzman-Ramirez (JBCA, University of Manchester) Yolanda Gomez and Laurent Loinard (CRyA, UNAM,

Lessons from other wavelengths. A picture may be worth a thousand words, but a spectrum is worth a thousand pictures.

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

Observed properties of SN From Woosley Lecture 16 See also Filippenko (1997; ARAA 35, 309) See also

IAU Symp 34 IAU Symposium 34: Planetary Nebulae Tatranska Lomnica, Czechoslovakia August 1967 C.R. O’Dell High Resolution, High S/N Spectroscopy of PNe.

X-ray Emission from PNe Martín A. Guerrero You-Hua Chu Robert A. Gruendl Univ. of Illinois APN III, Mt Rainier, 7/30/03.

Stellar Winds and Mass Loss Brian Baptista. Summary Observations of mass loss Mass loss parameters for different types of stars Winds colliding with the.

Helium-Rich Subdwarf B Stars Amir Ahmad Armagh Observatory C.S. Jeffery and collaborators 20 September 2007 Tübingen.

Spring School of Spectroscopic Data Analyses 8-12 April 2013 Astronomical Institute of the University of Wroclaw Wroclaw, Poland.

Stellar Atmospheres: Motivation 1 Stellar Atmospheres: Literature Dimitri Mihalas –Stellar Atmospheres, W.H. Freeman, San Francisco Albrecht Unsöld –Physik.

September 18, 2007Hydrogen-Deficient Stars, Tuebingen Transient Mass-Loss Events in the PG 1159  [WCE] Central Star of Longmore 4 Howard E. Bond Space.

200 MG 500 MG TheoryObservation Authors Institutes RE J is a hydrogen rich strongly magnetic white dwarf discovered as an EUV source by the ROSAT.

The ionization structure of the wind in NGC 5548

A statistical study of C IV regions in 20 Oe-stars Dr Antonios Antoniou University of Athens, Faculty of Physics, Department of Astrophysics, Astronomy.

The planetary nebula M2-9: Balmer line profiles of the nuclear region Silvia Torres-Peimbert 1 Anabel Arrieta 2 Leonid Georgiev 1 1 Instituto de Astronomía,

A Spectroscopic Survey of Bright DA(…) White Dwarfs Alexandros Gianninas, Pierre Bergeron Université de Montréal Jean Dupuis Canadian Space Agency Maria.

Search for new Luminous Blue Variables (1) (Kniazev: RSA_OTH RSA_OTH-014) Vasilii Gvaramadze (SAI MSU) & Alexei Kniazev.

Table 1. Observation Parameters Searching for Radial Velocity Variations in  Carinae Rosina C. Iping (CUA/NASA/GSFC), George Sonneborn, Ted R. Gull (NASA/GSFC),

VLASS – Galactic Science Life cycle of star formation in our Galaxy as a proxy for understanding the Local Universe legacy science Infrared GLIMPSE survey.

1 New Spitzer Results for Neon and Sulphur in NGC 6822 Reggie Dufour AU 10/07/2009.

Hee-Won Lee ARCSEC and Dept. of Astronomy Sejong University 2010 August 26.

The Origins of Hot Subdwarf Stars as Illuminated by Composite- Spectrum Binaries Michele A. Stark (Penn State University) Advisor: Richard A. Wade Thursday.

Symbiotic or planetary nebulae? Miguel Santander-García Romano L. M. Corradi Antonio Mampaso Asymmetrical Planetary Nebulae IV, Los Cancajos, La Palma,

Chapter 15 – Measuring Pressure (con’t) Temperature spans a factor of 10 or so from M to O stars Pressure/luminosity spans six orders of magnitude from.

Institute for Astronomy and Astrophysics, University of Tübingen 16 Aug th European White Dwarf Workshop Tübingen, Germany 1 HST / COS Spectroscopy.

Studying the peculiar and complex line profiles in the spectra of hot emission stars and quasars E. Danezis 1, E. Lyratzi 1, L. Č. Popović 2, M. S. Dimitrijević.

Diffraction-limited bispectrum speckle interferometry of the carbon star IRC with 73 mas resolution: The dynamic evolution of the innermost circumstellar.

DEPARTMENT OF PHYSICS AND ASTRONOMY PhD Recruitment Day – 31 st Jan 2007 The unidentified FUV lines of hydrogen deficient dwarfs David Boyce M. A. Barstow,

Tübingen, Hydrogen-Deficient Stars1 O(He) Stars Thomas Rauch Elke Reiff Klaus Werner Jeffrey W. Kruk Institute for Astronomy and Astrophysics.

IAU Symposium No. 224 The A-Star Puzzle Observations of non-magnetic CP stars Glenn M. Wahlgren Lund Observatory.

HD5980: is it a real LBV? Leonid Georgiev 1, Gloria Koenigsberger 2, John Hillier 3 1. Instituto de Astronomía, Universidad Nacional Autonoma de México;

ANGULAR EXPANSION IN PLANETARY NEBULAE FROM RADIO INTERFEROMETRIC DATA Yolanda Gómez Centro de Radioastronomía y Astrofísica, UNAM México.

FUSE spectroscopy of cool PG1159 Stars Elke Reiff (IAAT) Klaus Werner, Thomas Rauch (IAAT) Jeff Kruk (JHU Baltimore) Lars Koesterke (University of Texas)

Institute for Astronomy and Astrophysics, University of Tübingen, Germany June 29, 2005Planetary Nebulae as Astronomical Tools, Gdansk, Poland1 Light and.

Stellar parameters of Be targets for Corot C. Neiner 1,2, Y.Frémat 3, A.-M. Hubert 2, M. Floquet 2, E. Janot-Pacheco 4, J. Fabregat 5, J. Zorec 6 1 RSSD,

ATOMIC DATA AND STARK BROADENING OF Nb III Zoran Simić Milan S. Dimitrijević Luka Č. Popović Astronomical Observatory Belgrade, 11060, Serbia.

Lecture 10: Bubbles and PNe September 26, III. Conduction Layer - Probe the thermal conduction layer High ions produced by thermal collisions O.

THE INNER ABUNDANCE GRADIENT OF M33 USING BRIGHT PLANETARY NEBULAE

Lecture 9: Wind-Blown Bubbles September 21, 2011.

8/18/2010 Claus Leitherer: Young Stellar Populations 1 Young Stellar Populations in the Ultraviolet Claus Leitherer (STScI)

Photometric and spectral observations of the star EM Cep D

How to Better Weigh a Black Hole and Other Adventures in Quasar Physics Michael Brotherton.

Swayamtrupta Panda National Institute of Technology Rourkela, India

Infrared integral field spectroscopic observations of globules (cometary knots) in the Helix Nebula (NGC 7293) Mikako Matsuura National Astronomical Observatory.

HST/COS Observations of O(He) Stars

STARK BROADENING OF Se IV, Sn IV, Sb IV AND Te IV SPECTRAL LINES

[CII] observations of the Ring nebula (NGC 6720)

The Stellar Population of Metal−Poor Galaxies at z~1

[CII] observations of the Ring nebula (NGC 6720)

HST Surveys of the LMC Planetary Nebulae

Planetary Nebula abundances in NGC 5128 with FORS

Presentation transcript:

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 d'Astrophysique de Marseille (LAM) - France (2) Observatorio Nacional (ON/MCT) - Brazil (3) Centro Federal de Educacao Tecnologica (CEFET) - Brazil T ü bingen, September 2007

Introduction: Central stars of planetary nebulae that are H-deficient (neglecting O(He),RCB stars, etc): [WR] – Wolf-Rayets PG 1159 Stars [WC]-PG 1159 Stars Broad, strong emissions of He, C, O (Crowther et al. 1998; Acker & Neiner 2003) Mainly C IV and He II absorptions (Wesemael et al. 1985;Werner et al. 1997) (about 15 have PN associated) Mixed spectrum (abs+ems) (Werner & Herwig 2006) T ü bingen, September 2007 ~ 75 objects ~ 40 objects ~ 2-5 objects! late-type [WR] => early-type [WR] => [WC]-PG1159 => PG 1159 => non DA white dwarfs (e.g. Acker et al. 1996; Pena et al. 2001; Werner et al. 1992; Hamann 1997) (other sequences are possible/needed !)

The “weak emission line central stars” - WELS: - First mention to WELS : Aller & Keyes (1985) T ü bingen, September The definition : Tylenda et al. (1993) - 77 objects were studied: 39 classified as [WR] and 38 as WELS Weak emissions (compared to [WR] stars) emission at 4650A (N III + C III + C IV) C IV 5805 (weak emission or absent) C III 5696A (weak emission or absent) DEFINITION:

The “weak emission line central stars” - example: T ü bingen, September 2007

Informations, questions and confusions about the WELS: T ü bingen, September What is their evolutionary status ? - Parthasarathy et al. (1998) : WELS are [WC]-PG 1159 stars ! - There are about 50 WELS known (Tylenda et al. 1993; Parthasarathy et al. 1998; Gorny et al. 2004) - Most works were done in the optical part of the spectrum: We do not know their UV ! - Their physical parameters (e.g. T eff, v inf, Mdot) and chemical abundances remain unknown. [WCL] => [WCE] => WELS => PG 1159 => non DA - Pena et al. (2001;2003): WELS are not descendants of the [WR] stars (v_exp) - PNe analysis: Some WELS could be progenitors of [WO] stars (Gesick et al. 2006) - Other recent works (e. g. Girard et al. 2007)

T ü bingen, September 2007 The UV Spectra of the WELS

The Ultraviolet Spectra of the WELS: T ü bingen, September We retrieved all the data available from the IUE database: 20 WELS (42 spectra selected) - line identifications and measurements of W λ and fluxes for all lines (stellar and/or nebular) - measured terminal velocities for all objects presenting P-Cygni profiles - compared the results obtained to the two prototypes [WC]-PG1159 stars: A30 and A78

The Ultraviolet Spectra of the WELS: T ü bingen, September 2007 Group (1): Presence of a strong P-Cygni profile of C IV 1549 average W λ (CIV) ~ 6

The Ultraviolet Spectra of the WELS: T ü bingen, September 2007 Group (2): Presence of a weak C IV 1549 in P-Cygni average W λ (CIV) ~ 1

The Ultraviolet Spectra of the WELS: T ü bingen, September 2007 Group (3): Absence of P-Cygni's W λ (CIV) ≥ 100

The UV of the [WC]-PG 1159 stars: T ü bingen, September 2007 Typical UV of most of the WELS with P-Cygni's Considered the prototypes of the [WC]-PG 1159 class (Werner & Herwig 2006) Note the simultaneous presence of N V 1238, O V 1371 and C IV 1549

The three exceptions : NGC 6543, NGC 6567 and NGC 6572 T ü bingen, September 2007 WELS in fact resembling the [WC]-PG 1159 stars Note: NGC 6567 was already considered a [WC]-PG 1159 star (Hamann 1996)

T ü bingen, September 2007 Terminal Velocities Calibration provided by Prinja (1994): “Determining hot star wind terminal velocities from low-resolution IUE data” (A&A, 289, 221) a 1 = 883, a 2 = 259, a 3 = 3 for C IV 1549 a 1 = 2723, a 2 = 621, a 3 = 18 for N V 1238

` T ü bingen, September 2007 Results: values concentrated in ~ km/s much higher values: ~3000 km/s (C IV)

` T ü bingen, September 2007 Results: Bin width is 500 km/s. Data for [WR] and PG stars are from Koesterke (2001). Terminal velocities distribution of H deficient CSPN

` T ü bingen, September 2007 Results: Central stars temperature distribution – Gesicki et al. (2006)

` T ü bingen, September 2007 Conclusions from the UV analysis: 1) We found that the WELS can be divided in three groups - A 30 and A 78 show intense and simultaneous P-Cygni's in N V 1238, O V 1371 and C IV The WELS present weak or no O V 1371 (the same is true for N V in a few cases) - The situation is ambiguous for NGC 6543, NGC 6567 and NGC ) The WELS are distinct from A 30 and A 78 ([WC]-PG1159 stars) The question remains: What is their evolutionary status ? - Terminal velocities considerably lower than in [WC]-PG1159 stars

T ü bingen, September 2007 Quantitative analysis of WELS

` T ü bingen, September 2007 CMFGEN models for the WELS: Optical : ESO 1.52m Telescope (resolution of ~2 Å ) IUE satellite (resolution ~6 Å )

` T ü bingen, September 2007 Preliminary results for Hen 2-12: - Very low mass-loss (about solar mass/year) - Regarding the 4650 Å feature: N V absorptions on its side ! N III lines could not be reproduced - T eff lower (< 100kK) than in A 30 and A 78 and in [WO] stars - More work under way...

yeah, right! Hey, I know what the WELS are ! THANKS !