Bibcode
Graham, Alister W.
Bibliographical reference
Monthly Notices of the Royal Astronomical Society, Volume 326, Issue 2, pp. 543-552.
Advertised on:
9
2001
Citations
47
Refereed citations
41
Description
The K-band light profiles from two statistically complete,
diameter-limited samples of disc galaxies have been simultaneously
modelled with a seeing-convolved Sérsic r1/n bulge and
a seeing-convolved exponential disc. This has enabled an accurate
separation of the bulge and disc light, and hence an estimate of the
central disc surface brightness μ0,K and the disc
scalelength h. There exists a bright envelope of galaxy discs in the
μ0,K-logh diagram; for the early-type (<=Sbc-Sc) disc
galaxies μ0,K is shown to increase with logh, with a slope
of ~2 and a correlation coefficient equal to 0.75. This relation exists
over a range of disc scalelengths from 0.5 to 10kpc
(H0=75kms-1Mpc-1). In general, galaxy
types Scd or later are observed to deviate from this relation; they have
fainter surface brightnesses for a given scalelength. With a subsample
of 59 low-inclination (i<=50°) and 29 high-inclination
(i>=50°) galaxies having morphological types ranging from S0 to
Sc, the need for an inclination correction to the K-band disc surface
brightness is demonstrated. Certain selection criteria biases which have
troubled previous surface brightness inclination tests (for example,
whether the galaxies are selected from a magnitude- or diameter-limited
sample) do not operate in the μ0,K-logh diagram. Measured
central disc surface brightnesses are found to be significantly
(>5σ) brighter for the high-inclination disc galaxies than for
the low-inclination disc galaxies. With no surface brightness
inclination correction or allowance for the trend between
μ0,K and logh, the standard deviation to the distribution
of μ0,K values is ~1magarcsec-2, while the
standard deviation about the mean μ0,K-logh relation
decreases from 0.69magarcsec-2, when no inclination
correction is applied, to 0.47magarcsec-2 when the
inclination correction is applied. Possible changes to the disc
scalelength with inclination, as a result of radial gradients in the
disc opacity, have been explored. The maximum possible sizes for such
corrections are too small to provide a valid explanation for the
difference between the low- and high-inclination disc galaxies in the
μ0,K-logh diagram.