Galaxy formation and evolution

Are recent peculiar velocity surveys consistent?

Cosmic Flows 1999: Towards an Understanding of Large-Scale Structures Astronomical Society of the Pacific (1999)

Authors:

MJ Hudson, RJ Smith, DJ Schlegel, Roger Davies

Abstract:

We compare the bulk flow of the SMAC sample to the predictions of popular cosmological models and to other recent large-scale peculiar velocity surveys. Both analyses account for aliasing of small-scale power due to the sparse and non-uniform sampling of the surveys. We conclude that the SMAC bulk flow is in marginal conflict with flat COBE-normalized Lambda-CDM models which fit the cluster abundance constraint. However, power spectra which are steeper shortward of the peak are consistent with all of the above constraints. When recent large-scale peculiar velocity surveys are compared, we conclude that all measured bulk flows (with the possible exception of that of Lauer & Postman) are consistent with each other given the errors, provided the latter allow for `cosmic covariance'. A rough estimate of the mean bulk flow of all surveys (except Lauer & Postman) is ~400 km/s towards l=270, b=0.

Resolving the Stellar Populations in a z=4 Lensed Galaxy

(1999)

Authors:

Andrew J Bunker, Leonidas A Moustakas, Marc Davis

Bar Diagnostics in Edge-on Spiral Galaxies. II. Hydrodynamical Simulations

The Astrophysical Journal American Astronomical Society 522:2 (1999) 699-717

Authors:

E Athanassoula, M Bureau

Bar Diagnostics in Edge-on Spiral Galaxies. I. The Periodic Orbits Approach

The Astrophysical Journal American Astronomical Society 522:2 (1999) 686-698

Authors:

M Bureau, E Athanassoula

Bar diagnostics in edge-on spiral galaxies. II. Hydrodynamical simulations

Astrophysical Journal 522:2 PART 1 (1999) 699-717

Authors:

E Athanassoula, M Bureau

Abstract:

We develop diagnostics based on gas kinematics to identify the presence of a bar in an edge-on spiral galaxy and determine its orientation. We use position-velocity diagrams (PVDs) obtained by projecting edge-on two-dimensional hydrodynamical simulations of the gas flow in a barred galaxy potential. We show that when a nuclear spiral is formed, the presence of a gap in the PVDs, between the signature of the nuclear spiral and that of the outer parts of the disk, reliably indicates the presence of a bar. This gap is due to the presence of shocks and inflows in the simulations, leading to a depletion of the gas in the outer bar region. If no nuclear spiral signature is present in a PVD, only indirect arguments can be used to argue for the presence of a bar. The shape of the signature of the nuclear spiral, and to a lesser extent that of the outer bar region, allows a determination of the orientation of the bar with respect to the line of sight. The presence of dust can also help to discriminate between viewing angles on either side of the bar. Simulations covering a large fraction of parameter space constrain the bar properties and mass distribution of observed galaxies. The strongest constraint comes from the presence or absence of the signature of a nuclear spiral in the PVD.