Bibcode
Buta, R.; Laurikainen, E.; Salo, H.; Knapen, J. H.; Block, D. L.
Referencia bibliográfica
Galaxy Evolution Across the Hubble Time, Edited by F. Combes and J. Palous, Proceedings of the International Astronomical Union 2, IAU Symposium #235, held 14-17 August, 2006 in Prague, Czech Republic. Cambridge: Cambridge University Press, 2007., pp.81-81
Fecha de publicación:
0
2007
Número de citas
0
Número de citas referidas
0
Descripción
The distribution of bar strengths in disk galaxies is of fundamental
importance in studies of galaxy evolution for two reasons. First, bars
are the most important morphological features of galaxies that cross the
spiral-S0 divide. They are a potentially fruitful way of comparing
these two classes of disk galaxies and perhaps for better understanding
the relation between them. Secondly, recent theoretical studies by
Athanassoula show how a live halo can strongly impact the bar strength,
while studies by Bournaud and Combes have shown that gas accretion can
cause bar strength to be periodically variable over a Hubble time. The
distribution of bar strengths should be a complex combination of
halo-bar-disk angular momentum exchanges, external gas accretions, and
possible effects of interactions, all over a Hubble time. The recent
development of the gravitational torque method for quantifying bar
strength, in conjunction with the availability of statistically
well-defined image databases such as the Ohio State survey, has led to
the first measures of the distribution of bar strengths in normal disk
galaxies. After removal of the effects of spiral arm torques, the
distribution of maximum relative bar torques in normal, massive spiral
galaxies shows an approximately exponential decline with increasing bar
strength. There are three issues that will be addressed in this
presentation: (1) How do uncertainties in the assumed vertical scale
heights, orientation parameters, and the dark matter affect this
distribution? (2) Which of the above physical effects might have the
greatest impact on the observed distribution? and (3) How do early-type
galaxy bars compare with those seen in spirals, based on Fourier
dissection studies and the same kind of bar strength analysis? This work
has been supported by NSF grants AST020-5143 and AST050-7140, the
Academy of Finland, the Magnus Ehrnrooth Foundation, the Leverhulme
Trust, and the Anglo-American Chairman's Fund.