Type of Galaxies.

taken from the Hubble Atlas of Galaxies.


ELLIPTICALS.

These galaxies display no bright blue stars like those in the spiral arms
of Sb, Sc, Irr, SBb, and SBc galaxies. The images of these galaxies
display complete roational symmetry. A computation shows that the true
ellipticities of E galaxies are distributed nearly uniformally from E0
(round) to E7 (elongated), in the true classes. The points to note are:

(1.) The smooth texture of the photographic image.
(2.) The smooth gradient of surface brightness from the nucleus outward.
(3.) The absence of dust. (4.) The lack of any suggestion of resolution
     into the bright blue stars or knots.

SO Galaxies: Have symmetrical forms which are flatter than E7, but
which show no spiral structure and no trace of bar structure.
The characteristic features are a bright nucleus, a central lens
surrounded by a faint and sometimes extensive envelope, and in the later
stages of the section, circular absorption lanes that appear to form a
transition between the E types and the true spirals.

SPIRALS.

Normal spiral galaxies emerge from the SO sequence. On this basis, the
spiral sequence is divided into three subsections: Sa, Sb, and Sc. There
is a smooth transition between the sections, and the boundaries are
somewhat arbitrary.

Sa Galaxies: The first true spirals, they show tightly wound spiral
patterns of obscuration, and may or may not ave tight wound spiral arms of
luminous matter. The arms are invariably smooth, with no no resolution
into stars.

Sb Galaxies: Have definte and pronounced spiral arms which are
tightly wound. There is, however, considerable extension along the
sequence from early Sb to late Sb, and classification at both extremes is
difficult. The Sb spirals are separted into two major divisions....ones
having large amphorus nuclear regions, and ones having small nuclear
regions with the intermediate Sb spiral pattern.

Sc Galaxies: Dominance of multiple spiral arms and small amorphous
nuclear regions are the characteristic of Sc galaxies. These features and
the high degree of resolution of the open, branched-arm system make Sc
galaxies easy to recognize. The Sc galaxy exhibit great diversity in form.
These groups in general represent development along the sequence of
classification from early to late Sc.

BARRED SPIRALS.

The SBO class represents a transitional stage between elliptical galaxies
and the true barred spiral....there are three subtypes:

SBO1- The bar in this system is a broad indistinct region whose
surface brightness is higher than that of the surrounding lens. It is
inclined at a random angle to the major axis of the projected image.

SBO2- Thsi galaxy's bar structure does not extend completely across
the face of the underlying lens. The are two diametrically opposite
regions of enhanced luminosity on the rim of the lens which, together with
the nucleus, constitute the bar.

SBO3- The bar of this subtype extends completely across the face of
the lens, it is narrow, well defined and bright.

SBa- Galaxies possesss a characteristic bar that is prominent and
smooth in texture with no trace of resolution into knots or stars. No dust
lanes are present as in the SBb(s). Spiral arms first appear in the
SBa..they are usually closely coiled about the central lens and bar; they
are often faint and inconspicous, and usually smooth in texture, although
traces of partial resolution begin in the very late SBa's. The arms can
either begin tangent to an internal ring [(r) subtype], ot can
spring from the ends of the bar [(s) subtype].
This division into (r) and (s) groups is not prominent in the SBa, but is
dominent feture of the SBb and SBc galaxies (ed note: Most Irr systems
designated by Hubble have been revised to include Sd, Sdm, Sm and Im.
These galaxies form an important extension. Most galaxies of this type are
of low surface brightness and have lower luminosities than the earlier
type spirals. Contrarily, a galaxy designated BCD (blue compact dwarf) is
actually in close association with a ImIII systems [ie. The Im of the
highest luminosity] and are probably their closest associates).

SBb- These galaxies have a well defined bar structure which is
smooth in texture with no hint of resolution into stars. There are two
subgroups: The arms of the SBb(s) group spring from the end of the bar at
right angles. Two straight dust lanes in the bar turn sharpely at the end
of the bar and follow the the inside of the spiral arms. The spiral arms
of the SBb(r) group, start tangent to an internal ring on which the bar
terminates. No dust lanes are present in the bar. There are some
transitions that exist between the (s) and (r) subgroups and between the
SBb(s) and the Sb types.

SBc- The characteristics of SBc galaxies are:

(1.) The high degree of resolution of the bar and of the spiral srms and
     luminous lumps;
(2.) The openness of the spiral arms. As in the SBb, the SBc can be
     separated into two subgroups (r) and (s), although the pure ringed
     type is not common. Most central rings are broken into several
     segments.

(ed. note: Another classification was made by Sidney van den Bergh (ApJ.,
_131_, 215 [1960] and ApJ., _131_, 215,p. 558 [1960]) From"Galaxies and
The Universe, Vol., 9 of Stars and Stellar Systems" (G. Kuiper, ed.)....
He indicated that galaxies of the highest luminosity have the longest and
most highly developed arm, whereas fainter systems have poorly developed
arms. The result is equivelant to stating that the appearance of galaxies
vary systematically as one proceeds from left to right within the scatter
of redshift-apparent magnitude diagrams for field galaxies. By inspecting
the character of the spiral arms alone, van den Bergh was able to divide
Sb types into five luminosty classes [I, I-II, II, II-III, and III], which
with subsequent calibration showed were of a value of ~0.5 mag. apart in
[Mpg.] The Sc-Irr systems could be divided into eight half sections
[I-V, with intermediates]. Both calibrations of the types begin at -20 Mpg
[absolute], and proceed downward [brighter]) [ie. -20.0, to -19.4, etc.])