OUR MILKY WAY AS A PURE-DISK GALAXY—A CHALLENGE FOR GALAXY FORMATION

Bulges are commonly believed to form in the dynamical violence of galaxy collisions and mergers. Here, we model the stellar kinematics of the Bulge Radial Velocity Assay (BRAVA) and find no sign that the Milky Way contains a classical bulge formed by scrambling pre-existing disks of stars in major mergers. Rather, the bulge appears to be a bar seen somewhat end-on, as hinted from its asymmetric boxy shape. We construct a simple but realistic N-body model of the Galaxy that self-consistently develops a bar. The bar immediately buckles and thickens in the vertical direction. As seen from the Sun, the result resembles the boxy bulge of our Galaxy. The model fits the BRAVA stellar kinematic data covering the whole bulge strikingly well with no need for a merger-made classical bulge. The bar in our best-fit model has a half-length of ∼4 kpc and extends 20° from the Sun–Galactic center line. We use the new kinematic constraints to show that any classical bulge contribution cannot be larger than ∼8% of the disk mass. Thus, the Galactic bulge is a part of the disk and not a separate component made in a prior merger. Giant, pure-disk galaxies like our own present a major challenge to the standard picture in which galaxy formation is dominated by hierarchical clustering and galaxy mergers.

[1]  A. McWilliam,et al.  ALPHA ENHANCEMENT AND THE METALLICITY DISTRIBUTION FUNCTION OF PLAUT’S WINDOW , 2011, 1103.2143.

[2]  P. Peebles,et al.  Nearby galaxies as pointers to a better theory of cosmic evolution , 2010, Nature.

[3]  J. Barentine,et al.  DETECTION OF A PSEUDOBULGE HIDDEN INSIDE THE “BOX-SHAPED BULGE” OF NGC 4565 , 2010, 1005.1647.

[4]  Astrophysics,et al.  The first chemical abundance analysis of K giants in the inner Galactic disc , 2010, 1004.2833.

[5]  R. Teyssier,et al.  The formation of disc galaxies in a ΛCDM universe , 2010, 1004.0005.

[6]  K. Cunha,et al.  Chemical abundances in the universe : connecting first stars to planets : proceedings of the 265th symposium of the International Astronomical Union held in Rio de Janeiro, Brazil, August 10-14, 2009 , 2010 .

[7]  M. Asplund,et al.  Chemical similarities between Galactic bulge and local thick disk red giants: O, Na, Mg, Al, Si, Ca, and Ti , 2010, 1001.2521.

[8]  Andreas Koch,et al.  KINEMATICS AT THE EDGE OF THE GALACTIC BULGE: EVIDENCE FOR CYLINDRICAL ROTATION , 2009, 0908.1109.

[9]  Ralf Bender,et al.  STRUCTURE AND FORMATION OF ELLIPTICAL AND SPHEROIDAL GALAXIES , 2008, 0810.1681.

[10]  M. Livio,et al.  Stellar Proper Motions in the Galactic Bulge from Deep Hubble Space Telescope ACS WFC Photometry , 2008, 0809.1682.

[11]  Andreas Koch,et al.  The Bulge Radial Velocity Assay (BRAVA):I. Sample selection and a rotation curve , 2008, 0807.3967.

[12]  S. O. Kepler,et al.  Pulsating White Dwarf Stars and Precision Asteroseismology , 2008, 0806.2573.

[13]  S. Ortolani,et al.  The metal content of bulge field stars from FLAMES-GIRAFFE spectra - I. Stellar parameters and iron abundances , 2008, 0805.1218.

[14]  R. Rich,et al.  The Bulge Radial Velocity Assay: Techniques and a Rotation Curve , 2006, astro-ph/0611403.

[15]  R. Michael Rich,et al.  Abundances of Baade’s Window Giants from Keck HIRES Spectra. II. The Alpha and Light Odd Elements , 2006, astro-ph/0609087.

[16]  K. Stanek,et al.  FABRY–PEROT ABSORPTION LINE SPECTROSCOPY OF THE GALACTIC BAR. I. KINEMATICS , 2008, 0810.1225.

[17]  R. Rich,et al.  Abundances of Baade’s Window Giants from Keck HIRES Spectra. I. Stellar Parameters and [Fe/H] Values , 2005, astro-ph/0510408.

[18]  J. Kormendy,et al.  Secular Evolution and the Formation of Pseudobulges in Disk Galaxies , 2004, astro-ph/0407343.

[19]  Juntai Shen,et al.  The Destruction of Bars by Central Mass Concentrations , 2003, astro-ph/0310194.

[20]  K. Nomoto,et al.  Three-dimensional Simulations of the Chemical and Dynamical Evolution of the Galactic Bulge , 2003, astro-ph/0301404.

[21]  R. Rich,et al.  Age and Metallicity Distribution of the Galactic Bulge from Extensive Optical and Near-IR Stellar Photometry , 2002, astro-ph/0210660.

[22]  M. Steinmetz,et al.  The hierarchical origin of galaxy morphologies , 2002, astro-ph/0202466.

[23]  E. Athanassoula,et al.  Morphology, photometry and kinematics of N‐body bars – I. Three models with different halo central concentrations , 2001, astro-ph/0111449.

[24]  N. Bissantz,et al.  Spiral arms, bar shape and bulge microlensing in the Milky Way , 2001, astro-ph/0110368.

[25]  J. A. Sellwood,et al.  Constraints from Dynamical Friction on the Dark Matter Content of Barred Galaxies , 2000, astro-ph/0006275.

[26]  H. Ferguson,et al.  The Formation of Galactic Bulges: Frontmatter , 2000 .

[27]  D. Valls-Gabaud,et al.  New constraints on a triaxial model of the Galaxy , 1999, astro-ph/9903426.

[28]  H. Freudenreich A COBE Model of the Galactic Bar and Disk , 1998 .

[29]  K. Freeman,et al.  Dynamics of the Galactic Bulge Using Planetary Nebulae , 2000, astro-ph/0005086.

[30]  H. Freudenreich,et al.  COBE's Galactic Bar and Disk , 1997, astro-ph/9707340.

[31]  M. Valluri,et al.  Instabilities of a family of oblate stellar spheroids , 1996, astro-ph/9612069.

[32]  A. Udalski,et al.  MODELLING THE GALACTIC BAR USING RED CLUMP GIANTS , 1996 .

[33]  HongSheng Zhao A steady-state dynamical model for the COBE-detected Galactic bar , 1995, astro-ph/9512064.

[34]  Samuel Harvey Moseley,et al.  Morphology, near infrared luminosity, and mass of the galactic bulge from Cobe dirbe observations , 1995 .

[35]  Samuel Harvey Moseley,et al.  COBE diffuse infrared background experiment observations of the galactic bulge , 1994 .

[36]  R. Rich,et al.  The First Detailed Abundance Analysis of Galactic Bulge K Giants in Baade's Window , 1994 .

[37]  J. Kormendy Kinematics of Extragalactic Bulges: Evidence that some Bulges are Really Disks , 1993 .

[38]  K. Ashman,et al.  DARK MATTER IN GALAXIES , 1992 .

[39]  David N. Spergel,et al.  Direct evidence for a bar at the Galactic center , 1991 .

[40]  R. A. James,et al.  A dynamical instability of bars in disk galaxies , 1991, Nature.

[41]  C. Norman,et al.  Dissipation in barred galaxies: the growth of bulges and central mass concentrations , 1990 .

[42]  M. Schwarzschild,et al.  A numerical model for a triaxial stellar system in dynamical equilibrium , 1979 .

[43]  M. Rees,et al.  Core condensation in heavy halos: a two-stage theory for galaxy formation and clustering , 1978 .

[44]  B. Tinsley,et al.  Evolution of galaxies and stellar populations , 1977 .