Zooniverse

Tracing high-density gas in M82 and NGC 4038

Astrophysical Journal 685:1 PART 2 (2008)

Authors:

E Bayet, C Lintott, S Viti, J Martin-Pintado, S Martín, DA Williams, JMC Rawlings

Abstract:

We present the first detection of CS in the Antennae galaxies toward the NGC 4038 nucleus, as well as the first detections of two high-J (5-4 and 7-6) CS lines in the center of M82. The CS(7-6) line in M82 shows a profile that is surprisingly different from those of other low-J CS transitions we observed. This implies the presence of a separate, denser and warmer molecular gas component. The derived physical properties and the likely location of the CS(7-6) emission suggest an association with the supershell in the center of M82. © 2008. The American Astronomical Society. All rights reserved. Printed in U.S.A.

The physical properties of Lyman break galaxies at z > 5:: Outflows and the "Pre-enrichment Problem"

PATHWAYS THROUGH AN ECLECTIC UNIVERSE 390 (2008) 431-+

Authors:

MD Lehnert, M Bremer, A Verma, L Douglas, N Foerster Schreiber

Dynamical properties of z ∼ 2 star-forming galaxies and a universal star formation relation

Astrophysical Journal 671:1 (2007) 303-309

Authors:

N Bouché, G Cresci, R Davies, F Eisenhauer, NMF Schreiber, R Genzel, S Gillessen, M Lehnert, D Lutz, N Nesvadba, KL Shapiro, A Sternberg, LJ Tacconi, A Verma, A Cimatti, E Daddi, A Renzini, DK Erb, A Shapley, CC Steidel

Abstract:

We present the first comparison of the dynamical properties of different samples of z ∼ 1.4-3.4 star-forming galaxies from spatially resolved imaging spectroscopy from SINFONI/VLT integral field spectroscopy and IRAM CO millimeter interferometry. Our samples include 16 rest-frame UV-selected, 16 rest-frame optically selected, and 13 submillimeter galaxies (SMGs). We find that rest-frame UV and optically bright (K < 20) z ∼ 2 star forming galaxies are dynamically similar, and follow the same velocity-size relation as disk galaxies at z ∼ 0. In the theoretical framework of rotating disks forming from dissipative collapse in dark matter halos, the two samples require a spin parameter 〈λ〉 ranging from 0.06 to 0.2. In contrast, bright SMGs (S850 μm ≥ 5 mJy) have larger velocity widths and are much more compact. Hence, SMGs have lower angular momenta and higher matter densities than either the UV or optically selected populations. This indicates that dissipative major mergers may dominate the SMGs population, resulting in early spheroids, and that a significant fraction of the UV/optically bright galaxies have evolved less violently, either in a series of minor mergers, or in rapid dissipative collapse from the halo, given that either process may leads to the formation of early disks. These early disks may later evolve into spheroids via disk instabilities or mergers. Because of their small sizes and large densities, SMGs lie at the high surface density end of a universal (out to z = 2.5) "SchmidtKennicutt" relation between gas surface density and star formation rate surface density. The best-fit relation suggests that the star formation rate per unit area scales as the surface gas density to a power of ∼ 1.7, and that the star formation efficiency increases by a factor of 4 between non-starbursts and strong starbursts. © 2007. The American Astronomical Society. All rights reserved.

Meeting of the royal astronomical society: Friday 2007 May 11th at 16h 00m in the Geological Society Lecture Theatre, Burlington House

Observatory 127:1201 (2007) 369-375

Authors:

M Rowan-Robinson, CJ Lintott, L Fletcher, GP Smith, R Trotta, G Barber, A Hood, GQG Stanley, F Diego, NO Weiss, N Kollerstrom, PG Murdin

Intense starbursts at z∼5: First significant stellar mass assembly in the progenitors of present-day spheroids

Proceedings of the International Astronomical Union 3:S245 (2007) 471-476

Authors:

A Verma, M Lehnert, NF Schreiber, M Bremer, L Douglas

Abstract:

High redshift galaxies play a key role in our developing understanding of galaxy formation and evolution. Since such galaxies are being studied within a Gyr of the big bang, they provide a unique probe of the physics of one of the first generations of large-scale star-formation. We have performed a complete statistical study of the physical properties of a robust sample of z∼5 UV luminous galaxies selected using the Lyman-break technique. The characteristic properties of this sample differ from LBGs at z∼3 of comparable luminosity in that they are a factor of ten less massive (∼few109 M) and the majority (∼70%) are considerably younger (<100Myr). Our results support no more than a modest decline in the global star formation rate density at high redshifts and suggest that ∼1% of the stellar mass density of the universe had already assembled at z∼5. The constraint derived for the latter is affected by their young ages and short duty cycles which imply existing z∼5 LBG samples may be highly incomplete. These intense starbursts have high unobscured star formation rate surface densities (∼100s M yr1 kpc2), suggesting they drive outflows and winds that enrich the intra- and inter-galactic media with metals. These properties imply that the majority of z∼5 LBGs are in formation meaning that most of their star-formation has likely occurred during the last few crossing times. They are experiencing their first (few) generations of large-scale star formation and are accumulating their first significant stellar mass. As such, z∼5 LBGs are the likely progenitors of the spheroidal components of present-day massive galaxies (supported by their high stellar mass surface densities and their core phase-space densities). © 2008 International Astronomical Union.