1 / 13

Hunting Very Massive Metal-poor Stars

Hunting Very Massive Metal-poor Stars. Danny Lennon (ESA-STScI)

rafi
Télécharger la présentation

Hunting Very Massive Metal-poor Stars

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Hunting Very Massive Metal-poor Stars • Danny Lennon (ESA-STScI) • Acknowledgements: Miriam Garcia (IAC), Artemio Herrero (IAC), Alex Fullerton (STScI), Joachim Puls (Munich), Chris Evans (ATC, Edinburgh), Derck Massa (STScI), Nolan Walborn (STScI), Paul Crowther (Sheffield), H. Sana (Amsterdam), Selma de Mink (STScI), J.C. Bouret (Marseille), Azalee Bostroem (STScI)

  2. A very high level view of the science: OLD PICTURE The IMF stops at ~60 solar masses and a star’s evolution is determined by its initial mass and metallicity....simple. NEW PICTURE Stars have initial masses up to at least ~300 solar masses and ....it’s complicated!

  3. Rotation.. de Mink ..or not? Hunter & Brott Most are not single de Mink Upper IMF? Crowther Clumping? Sundqvist Magnetic Fields Wade

  4. Peter Conti We need spectra! • Photometry is degenerate.

  5. FUV UV Optical/NIR mid-IR FUSE and now COS Ground-based Spitzer & JWST COS & STIS • Weak Wind • Properties of inner wind • Wind Clumping • Abundances • Diffuse ISM • Highly ionized wind & wind structure • Cold ISM, H2 • IR excess • Wind clumping • disks • CSM • Stellar Parameters • Turbulence • Abundances • Pulsation • Magnetic fields Evolution and final fate of Massive Stars • ISM and Extinction: • Chemical enrichment, feedback, mixing • Dynamics and distribution of the ISM • Spectral Libraries: • Testing atmosphere/wind models • Population synthesis of low/high z populations

  6. FUSE COS STIS/FUV Courtesy: Adi Pauldrach

  7. Winds @ low Z: The Magellanic Clouds Hubble has pioneered the investigation of radiation driven winds at low Z. In the SMC roughly 30 observed with STIS (Lennon: opposite), another 20 with COS (Hubeny & Lanz: not yet published). COS enables us to push into the “weak wind” regime at lower luminosities and masses. By contrast there are only ~10 such spectra for the LMC From FUSE there are ~100 good quality spectra for each galaxy.

  8. Winds @ lower Z: Beyond the Magellanic Clouds Courtesy: Miriam Garcia The sensitivity of COS allows us to investigate massive stars in galaxies out to ~1 Mpc and sample star forming irregular galaxies more metal poor than the LMC (0.5 solar) and SMC (0.2 solar). Examples include IC1613 (Garcia: 9 stars in IC1613, opposite) and WLM (Lanz: 2 in IC1613, 1 in WLM, yet to be observed). Both galaxies have [O/H] ~ 0.1 solar. Sana et al 2012

  9. Spectroscopy in dense clusters: R136 • Most massive of resolved massive clusters with M~5x104 Mʘ and the densest, most compact cluster: central parsec contains ~30 WN and O2/O3 stars, containing some very massive stars with >150M⊙ (Crowther et al 2010). 4”~1pc HST/STIS - Crowther et al HST/FOS - Massey & Hunter

  10. Long-slit spectrum of 30 Doradus (Azalee Bostroem)

  11. WFC3 Image: E. Sabbi • Constructing the data cube.

  12. Summary • A lot of exciting science still to do with HST and UV/Optical spectroscopy!! • Specific requests/needs: • CTE mitigation for STIS CCDs • Long slit package improvement: MULTISPEC? (Maiz-Apellaniz) • Archive: target (fuzzy) type keywords would be useful (cf IUE) • Improve spectrum previewing from the archive (and HLA) • LSFs for convolution with models

More Related