Transcript Document
The Least Luminous Galaxies: Faint But Not Dull Daniel Zucker Macquarie University/ Anglo-Australian Observatory I. Introduction 27 July 2009 Daniel Zucker • Extreme Star Formation in Dwarf Galaxies • Ann Arbor, Michigan The “Missing Satellite” Problem, circa 2005 Dark Matter Diemand+ 2006 Luminous Matter • CDM models predict far more lowmass dark subhalos and substructure than dwarfs and streams observed -- “missing satellites”† • Some theoretical solutions: inhibited star formation; observed satellites much more massive; observed satellites originally more massive but tidally stripped‡ † Klypin+ Bullock & Johnston 2005 27 July 2009 1999, Moore+ 1999, Benson+ 2002 2002, Benson+ 2002; Stoehr+ 2002; Kravtsov+ 2004 ‡ Somerville Daniel Zucker • Extreme Star Formation in Dwarf Galaxies • Ann Arbor, Michigan The Observational Perspective, circa 2005 • 2003: only 9 Milky Way (MW) dwarf spheroidal galaxies (dSphs), still fewer around M31 • 2004: Andromeda IX Cetus And dSph IX (Zucker+) • 2005: Ursa Major (Willman+), Andromeda X (Zucker+); runts or tip of an iceberg? 27 July 2009 Daniel Zucker • Extreme Star Formation in Dwarf Galaxies • Whiting+ 1999 Subaru g,r,i Ann Arbor, Michigan The Sloan Digital Sky Survey • SDSS-I: Largearea imaging and spectroscopic survey, covered ~25% of the sky • SDSS-II: just finished, SDSS-III now underway 27 July 2009 Daniel Zucker • Extreme Star Formation in Dwarf Galaxies • Ann Arbor, Michigan Stellar Density in SDSS Data • SDSS data for the North Galactic Cap cover over 8000 sq. deg. • ~56 million stellar objects identified by SDSS pipeline in DR5 27 July 2009 Daniel Zucker • Extreme Star Formation in Dwarf Galaxies • Ann Arbor, Michigan The SDSS “Field of Streams” Density composite from magnitude slices: probing distances in upper main sequence and turn-off stars 27 July 2009 Daniel Zucker • Extreme Star Formation in Dwarf Galaxies • Ann Arbor, Michigan A Field of Streams...and Dots Canes Venatici I NGC 5466 NGC 5272 27 July 2009 Daniel Zucker • Extreme Star Formation in Dwarf Galaxies • Ann Arbor, Michigan The Ultra-Low-Luminosity Explosion • Wide-area surveys (SDSS,CFHT) ~20 new low-luminosity LG dwarfs since 2004, almost all dSphs • Many of the new dwarfs have very low measured masses (< 108 M) most sensitive to reionisation and feedback processes 27 July 2009 Daniel Zucker • Extreme Star Formation in Dwarf Galaxies • Walsh+ 2008 Ann Arbor, Michigan And Now, for Something Different: Leo T, The Smallest Star-Forming Galaxy • Leo T not dead yet: stars formed within few x 108 yr • HIPASS, GMRT, WSRT: ~3 x 105 M H I, RV ~ 35 km s-1 • MH I/M ~ 2, (Virialized) Mdyn~ 7x106 M -- how did it keep/accrete gas? Are there many more like Leo T? Irwin+ 2007, Ryan-Weber+ 2008 27 July 2009 Daniel Zucker • Extreme Star Formation in Dwarf Galaxies • GMRT WSRT INT g,r Ann Arbor, Michigan Luminosity MV vs. rh for the New Dwarfs No DM Gap? DM Size • Few objects with rh between ~40 pc and ~100 pc characteristic size scale for objects with dark matter? Implications+? • What is the nature of the objects in the “gap” --star clusters or dwarfs? + 27 July 2009 e.g. Gilmore+ 2008, Strigari+2008 Daniel Zucker • Extreme Star Formation in Dwarf Galaxies • Ann Arbor, Michigan A Common (Minimum) Mass for Galaxies? Matteo+ 1993 Strigari+ 2008 27 July 2009 Daniel Zucker • Extreme Star Formation in Dwarf Galaxies • Ann Arbor, Michigan Some Big Questions about Little Galaxies • How many low-luminosity dwarfs are there? What are their properties, and how are they distributed? • Is there a minimum galaxy mass? (Is there a common galaxy mass?) If so, what does this tell us about dark matter/ star formation/ both? • Is there a minimum galaxy size? What are the objects in the “gap”? • What are their stellar populations, and what can they tell us about the conditions of star formation in such extreme systems over a cosmic time? 27 July 2009 Daniel Zucker • Extreme Star Formation in Dwarf Galaxies • Ann Arbor, Michigan II. Stellar Populations of LowLuminosity Dwarfs* “The stellar populations of ultra-faint dwarfs are still a mystery” – O. Gnedin (2 27 July 2009 Daniel Zucker • Extreme Star Formation in Dwarf Galaxies • Ann Arbor, Michigan Stellar Populations with HST • 101-orbit HST program to observe 4 new Milky Way satellites, 3 M31 satellites and Leo T, using F606W (broad ~V) and F814W (~ I) filters • WFPC2 (RIP): 4-chip batwing, 160” on a side And XIII F606W Zucker+, in prep; Martin+, in prep 27 July 2009 Daniel Zucker • Extreme Star Formation in Dwarf Galaxies • Ann Arbor, Michigan Hercules 27 July 2009 Daniel Zucker • Extreme Star Formation in Dwarf Galaxies • MV = -6.6 Ann Arbor, Michigan CVn I 27 July 2009 Daniel Zucker • Extreme Star Formation in Dwarf Galaxies • MV = -8.6 Ann Arbor, Michigan Leo T 27 July 2009 Daniel Zucker • Extreme Star Formation in Dwarf Galaxies • MV = -8.0 Ann Arbor, Michigan 27 July 2009 Daniel Zucker • Extreme Star Formation in Dwarf Galaxies • Ann Arbor, Michigan Star Formation/Chemical Enrichment Histories • Hercules: purely old (~14 Gyr), metal poor • CVn I: extended star formation (14 - 8+ Gyr), no clear sign of younger population (cf. Martin et al. 2008), increasing metallicity • Leo T: extended, multiepisodic star formation (14 6 Gyr, 4 Gyr - 1 Gyr, 250 Myr) 27 July 2009 Leo T Daniel Zucker • Extreme Star Formation in Dwarf Galaxies • Her CVn I Ann Arbor, Michigan Current Star Formation in Extreme Dwarfs • Leo T: a unique (?) laboratory • H (Gemini) and UV (pointed GALEX + Swift/UVOT) observations to study recent star formation: no detected H II regions no ongoing SF… or no O stars? Zucker+, in prep. 27 July 2009 Leo Leo TT Gemini Swift NUV, UVW1, UVW2 INT g+r,Hα, GALEX FUV Daniel Zucker • Extreme Star Formation in Dwarf Galaxies • Ann Arbor, Michigan Star Formation History vs. DG 5-8 Gyr >10 Gyr <~1 Gyr (0.5<z<1 (z>2) (z<0.1) ) DG(kpc) MV And XI ≥100 -7.3 Old And XIII ≥100 -6.9 Old+ Her 140 -6.6 Old CVn II 150 -4.9 Old+ Leo IV 160 -5.0 Old+ CVn I 220 -8.6 Old+ Inter+ 420 -8.0 Old+ Inter+ Young! Ann Arbor, Michigan Leo T 27 July 2009 Daniel Zucker • Extreme Star Formation in Dwarf Galaxies • Summary • The “ultra-faint” dwarfs appear to be part of the same continuum of properties with the previously-known dwarfs – e.g., derived star formation histories are consistent with the apparent proximity effect: ultrafaint luminosity-challenged • None of the dwarfs studied (Hercules? And XI?) look like purely ancient, single stellar populations what impact did reionization have on such objects? • Leo T has had multiple epochs of star formation, as recently as 200 Myr ago – and still has neutral gas – but no H II regions (or no O stars). Is Leo T a “Rosetta Stone” for understanding this extreme regime of star formation? 27 July 2009 Daniel Zucker • Extreme Star Formation in Dwarf Galaxies • Ann Arbor, Michigan Epilogue: Some Things Coming Up Down Under… • Skymapper: southern allsky 6-filter photometric survey • HERMES: 400 fiber highres (R~30000) spectrograph with 2° FOV for AAT • WALLABY: southern all-sky H I survey proposed for ASKAP 27 July 2009 Daniel Zucker • Extreme Star Formation in Dwarf Galaxies • Ann Arbor, Michigan 27 July 2009 Daniel Zucker • Extreme Star Formation in Dwarf Galaxies • Ann Arbor, Michigan