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Astron. Astrophys. 342, 627-642 (1999)
Toward a dust penetrated classification of the evolved stellar Population II disks of galaxies
David L. Block 1 and
Ivânio Puerari 2
1 Department of Computational and Applied Mathematics,
University Witwatersrand, Private Bag 3, WITS 2050, South Africa
2 Instituto Nacional de Astrofísica, Optica y
Electrónica, Calle Luis Enrique Erro 1, 72840 Tonantzintla,
Puebla, México
Received 28 September 1998 / Accepted 29 October 1998
Abstract
To derive a coherent physical framework for the excitation of
spiral structure in galaxies, one must consider the co-existence of
two different dynamical components: a gas-dominated Population
I disk (OB associations, HII regions, cold interstellar HI gas) and an
evolved stellar Population II component. The Hubble classification
scheme has as its focus, the morphology of the Population I component
only. In the near-infrared, the morphology of evolved stellar disks
indicates a simple classification scheme: the dominant Fourier m-mode
in the dust penetrated regime, and the associated pitch angle. On the
basis of deprojected ![[FORMULA]](img1.gif)
(2.1![[FORMULA]](img2.gif)
) images, we propose that the
evolved stellar disks may be grouped into three principal dust
penetrated archetypes: those with tightly wound stellar arms
characterised by pitch angles at of
![[FORMULA]](img3.gif)
![[FORMULA]](img4.gif)
(the
![[FORMULA]](img5.gif)
class), an intermediate group with
pitch angles of
![[FORMULA]](img6.gif)
(the ![[FORMULA]](img7.gif)
class) and thirdly, those with open spirals demarcated by pitch angles
at of
![[FORMULA]](img8.gif)
(the
![[FORMULA]](img9.gif)
bin).
There is no correlation between our dust penetrated classes and
optical Hubble binning; the Hubble tuning fork does not constrain the
morphology of the old stellar Population II disks. Any specific dust
penetrated archetype may be the resident disk of both an early
or late type galaxy. The number of arms and the pitch angle of the
arms at of the early-type `a' spiral
NGC 718 are almost identical to those for the late-type `c' spiral
NGC 309. We demonstrate that galaxies on opposite ends of the tuning
fork can display remarkably similar evolved disk morphologies and
belong to the same dust penetrated class. Furthermore, a
prototypically flocculent galaxy such as NGC 5055 (Elmegreen arm class
3) can have an evolved disk morphology almost identical to that of
NGC 5861, characterised in the optical as having one of the most
regular spiral patterns known and of Elmegreen class 12. Both
optically flocculent or grand design galaxies can reside within the
same dust penetrated morphological bin. As was suggested by
Block et al. (1994a), it is the gas dominated Population I component
which determines the optical types (a, b, c), decoupled from the
Population II.
Those L=lopsided galaxies (where m=1 is a dominant mode) are
designated L,
L and
L according to the dust penetrated
pitch angle; E=evensided galaxies (where m=2 is the dominant Fourier
mode) are classified into classes E,
E and
E, according to our three principal
dust penetrated archetypes. The L and E modes are the most common
morphologies in our sample, which spans a range of Hubble types from
early (a) to late (irregular). Having formulated our dust penetrated
classification scheme here, we have tested it on an independent sample
of 45 face-on galaxies observed in the near-infrared by Seigar and
James (1998a, b).
Key words: galaxies: fundamental
parameters 
galaxies:
spiral
galaxies: stellar
content
galaxies:
structure
infrared: galaxies
Send offprint requests to: D.L. Block (igalaxy@iafrica.com)
Contents
- 1. Introduction
- 2. The decomposition and identification of modes
- 3. Dust penetrated group
- 4. Dust penetrated group
- 5. Dust penetrated group
- 6. Classifying lopsided galaxies
- 7. Higher order harmonics
- 8. Inverse Fourier transform analysis
- 9. Discussion
- 10. Conclusions
- Acknowledgements
- References
© European Southern Observatory (ESO) 1999
Online publication: February 23, 1999
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