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Astron. Astrophys. 354, 28--34 (2000) ASTRONOMY
AND
ASTROPHYSICS
NGC 759: A giant elliptical with a justforming decoupled nucleus #
V.V. Vlasyuk 1 and O.K. Sil'chenko 2,3
1 Special Astrophysical Observatory, Nizhnij Arkhyz, 357147 Russia
2 Sternberg Astronomical Institute, University av. 13, Moscow 119899, Russia
3 RGO Astronomy Data Centre, Guest Investigator
Received 25 August 1999 / Accepted 12 November 1999
Abstract. By undertaking a spectral and photometric investi
gation of the central part of the bright elliptical galaxy NGC 759,
we have found an optical counterpart for the circumnuclear
molecular gas ring with the radius of # 3 ## (# 1 kpc) which
was earlier reported by Wiklind et al. (1997). This counter
part consists of the ionized gas excited by young massive stars
and of the dust. The gaseous ring exhibits fast rotation: its pro
jected rotation velocity at R # 3 ## is # 220 km/s. The large
projected rotation velocity value together with the asymmetric
appearance of the dust ring on the (V - I) colour map con
firm the hypothesis of Wiklind et al. (1997) about a rather high
inclination of the gas rotation plane: our data favours i # 40 #
proposed by them for the molecular gas ring. Meantime the 2D
decomposition of the galaxy images both in the V and I bands
has revealed an existence of the brightness excess with respect
to the de Vaucouleurs' spheroid: this extracomponent is seen in
the radius range of 3 ## --16 ## , its boundaries looking nearly round,
and has a radial brightness distribution wellfitted by two expo
nential laws with different characteristic scales. We argue that
two stellar disks are embedded into the bright elliptical galaxy:
the outer one is seen nearly faceon and so its origin is prob
ably related to that of the main galactic body, the inner one is
inclined by i # 40 # and so its origin is probably related to the
circumnuclear gaseous ring. Within the radius range of their
appearance the disks contributes about 10% into the integrated
surface brightness.
Key words: galaxies: elliptical and lenticular, cD -- galaxies:
kinematics and dynamics -- galaxies: photometry -- galaxies:
structure -- galaxies: nuclei -- galaxies: individual: NGC 759
1. Introduction
According to a common opinion, elliptical galaxies have
the simplest visible structure among the galaxies. They con
Send offprint requests to: O.K. Sil'chenko (olga@sai.msu.su)
# Based on observations collected with the 6m telescope of the Spe
cial Astrophysical Observatory (SAO) of the Russian Academy of Sci
ences (RAS) which is operated under the financial support of Science
Ministry of Russia (registration number 0143) and on observations
collected with the 1m and 0.6m telescopes of the Special Astrophysi
cal Observatory (SAO) of the Russian Academy of Sciences (RAS).
tain only one structural unit, a spheroid, whose stellar pop
ulation looks relatively homogeneous, old and metalrich,
and usually lacks interstellar medium. During the last years
this widelyheld opinion has been strongly opposed. Firstly,
close inspection has revealed the presence of dust and ion
ized gas in more than the half of all elliptical galaxies (e.g.
Roberts et al. 1991, Goudfrooij et al. 1994). Secondly, decou
pled stellar cores were discovered in some elliptical galax
ies: Jedrzejewski and Schechter (1988) and Bender (1988)
have found a halfdozen galaxies where the central regions
rotate faster and often around different rotation axes than the
main bodies. Later, Bender and Surma (1992) have proved
that the stellar populations in four kinematically distinct cores
are prominently more metalrich than those in the rest of the
galaxies. Several more kinematically and chemically decou
pled cores in elliptical galaxies have been added to the sample
of Bender and Surma (1992) -- see e.g. Carollo and Danziger
(1994), Mehlert et al. (1998). Though not onetoone, the de
coupled cores are usually related to compact circumnuclear
stellar disks embedded into spheroidal bodies of some ellip
tical galaxies; in almost all cases these disks are found to
be younger than the common estimate of the age of ellipti
cal galaxies, namely, are 5--8 Gyr old (Surma & Bender 1995,
Sil'chenko 1997, de Jong & Davies 1997). So a natural ex
planation of the presence of decoupled cores in the centers
of elliptical galaxies may be a hypothesis of a secondary
star formation burst provoked by merging a gasrich galaxy
(``dissipative merger''). According to our statistical estimate
(Sil'chenko 1994), up to 30% of all nearby ellipticals may have
chemically distinct cores. Secondary star formation bursts in el
liptical galaxies had to last typically for 10 8
-10 9 years; the low
limit is caused by the need to provide a substantial magnesium
enrichment in the nuclear integrated stellar population and the
upper limit to preserve a high magnesiumtoiron ratio that is
usually observed. So, about 0.3%--3% of all nearby elliptical
galaxies may be caught just in the moment of the secondary star
formation burst in their centers. Here we present the first exam
ple of an elliptical galaxy probably experiencing its decoupled
core formation -- NGC 759. The main global parameters of the
galaxy are given in Table 1.
The unusual structure of the central region of NGC 759 has
been revealed by Wiklind et al. (1997) as a result of interfer

V.V. Vlasyuk & O.K. Sil'chenko: NGC 759: A giant elliptical with a justforming decoupled nucleus 29
Table 1. Global parameters of NGC 759
Hubble type E0
R25 15.2 kpc
B 0
T 13.33
MB --20.7
(B - V ) 0
T 1.00
(U -B) 0
T 0.52
Vr (CO) 4665 km · s -1 (Wiklind et al. 1997)
Distance 66 Mpc (H0=75 km · s -1 · Mpc -1 )
Inclination 3.3 o
ometric observations in the CO (10) emission line. Though
the spatial resolution of these observations, 3. ## 1 в 2. ## 3, is not
quite sufficient to insist on details, a large mass of molecular gas,
2.4·10 9 M# , has certainly been found within a radius of 3 ## . The
most probable shape of the molecular gas distribution is a flat
ring; it demonstrates fast rotaton, v proj
rot # 200 km/s, consistent
with the visible mass concentration to the center. The conclu
sion has been made that NGC 759 may represent a late stage of
a merger between two gasrich disk galaxies. If this is so, there
must also be other consequences of such a catastrophic event:
present star formation in the gaseous circumnuclear ring and
perhaps intermediateage stellar population and some structure
peculiarities in the outer regions of the galaxy. This has stim
ulated us to undertake a spectral and photometric investigation
of NGC 759 in the optical range. The results are presented in
this paper.
2. Observations and data reduction
The spectral observations of NGC 759 were undertaken in
January 1998, at the 6meter telescope of the Special Astro
physical Observatory of the Russian Academy of Sciences.
We have used the MultiPupil Field Spectrograph (MPFS,
Afanasiev et al. 1990) in the prime focus and the longslit spec
trophotometric complex in the Nasmyth focus. The detailed pa
rameters of the spectral observations are given in Table 2.
The MultiPupil Field Spectrograph allows us to obtain a set
of about one hundred spectra from a rectangular area of an ex
tended astronomical object (e.g. of a galaxy). We have obtained
two such sets for the central region of NGC 759: one in the green
spectral range, 4800--5400 љ
A, which we have used to derive a
twodimensional velocity field of stars by crosscorrelating in
dividual spectra with spectra of bright K giant stars, and another
in the red, 6200--6900 љ
A, -- it contains emission lines H# and
[N ii]#6583 which have been used to calculate a twodimen
sional velocity field of the ionized gas. These observations have
been performed with the reciprocal dispersion of 1.6 љ
A per pixel
(the spectral resolution of 4--6 љ
A slightly varying over the frame).
To calibrate the wavelength scale, we exposed separately a spec
trum of the hollow cathod lamp filled with helium, neon, and
argon, but the accuracy of the calibration was also checked by
measuring positions of nightsky emission lines. We found no
systematic velocity shifts. The typical random error of an indi
vidual measurement of a weak emission line is 40 km/s.
To refine a kinematical analysis, we have also obtained a
longslit spectrum with the Nasmythfocus spectrograph of the
6m telescope in the red spectral range under a slightly higher
spectral resolution, of about 3 љ
A. Unfortunately, in this spectro
graph there is no rotationfield mechanism; but the short expo
sure time and a large distance from the culmination point during
the observations have allowed us to fix the position angle of the
slit at the value of 90 # ± 2 # . The 3 љ
A--resolution spectral ob
servation has revealed a complex structure of the profiles of the
emission lines H#, [N ii]#6583, and [S ii]#6717,6731 which
can be traced up to 5 ## from the center.
The photometric observations of NGC 759 were performed
with the small telescopes of the Special Astrophysical Obser
vatory -- at the 1meter and 0.6meter Zeiss reflectors (Z1000
and Z600, respectively). The 1040 в 1160 CCD detector was
used. The observations at the 1meter telescope were made with
binning 2 в 2, through BV RI filters and in the photometric
night, but without guiding -- so only short exposures were pos
sible. As the photometric standards, we exposed a field of the
star cluster NGC 7790 which has been previously studied in
V RI by Christian et al. (1985) and in BV R by Odewahn et
al. (1992); it was exposed with the same exposure times and
at the same zenith distance as NGC 759. Though the short ex
posure times have prevented surface photometry deep enough
and only the measurements of the galaxy within the radius of
# 20 ## were relevant, this observation has allowed us to de
termine V RI magnitudes for a dozen stars around NGC 759
which were used later to calibrate our photometry with the 0.6
meter telescope into the standard JohnsonCousins photometric
system. The observations at the 0.6meter telescope have been
made without binning in V RI filters, with guiding -- so the ex
posures were long enough. Unfortunately, the guiding of the
telescope is imperfect, so despite guiding, the stellar images
are slightly elongated, with artificial ellipticity of # 0.2. No
photometric standards were observed with the 0.6meter tele
scope. These observations appear to be deep enough: we trace
surface brightness profiles almost up to the optical border of the
galaxy, R # 50 ## . The detailed parameters of our photometric
observations are given in the Table 3.
Besides our own data, we include also photometric data from
the La Palma Archive: NGC 759 has been observed through the
RI filters at the Jacobus Kapteyn Telescope (JKT) with the EEV
1280 в 1180 CCD on different dates. The standards of Landolt
(1992) were used to calibrate the measurements of the galaxy
and its surrounding stars into the Cousins system.
All the data, both spectroscopic and photometric, have been
reduced by using the software developed in the Special Astro
physical Observatory (Vlasyuk 1993).
3. Photometric structure of NGC 759
NGC 759 is thought to be a ``bonafide'' elliptical galaxy (see
e.g. RC3), however the detailed CCD photometric study of this
galaxy has never been published. In this section we analyse
mostly the data obtained at the 0.6meter telescope, because
they are the deepest ones.

30 V.V. Vlasyuk & O.K. Sil'chenko: NGC 759: A giant elliptical with a justforming decoupled nucleus
Table 2. Spectral observations of NGC 759
Date Configuration Exposure Field Scale Spectral range PA of long side Seeing
21/22.01.98 MPFS+CCD 520 в 580 90 min 10. ## 4 в 15. ## 6 1. ## 30 per lens 4700--5450 љ
A 96 # 2. ## 4
22/23.01.98 LS+CCD 1024 в 1024 30 min 2 ## в 34 ## 0. ## 4 per pixel 6000--7350 љ
A 90 # 2 ##
23/24.01.98 MPFS+CCD 1040 в 1160 120 min 11 ## в 22 ## 1. ## 36 per lens 6300--7300 љ
A 285 # 2. ## 2
Fig. 1. Radial variations of the isophote morphological characteristics
in NGC 759 according to our data and to those from the JKT La Palma
First of all we have undertaken a morphological study of
the isophotes. Fig. 1 shows radial variations of the majoraxis
position angle and of the ellipticity. The measurements of the
0.6meter telescope images look to be the most accurate ones
and give the most extended dependencies, but in the central
part they are distorted by guiding errors; the La Palma Rband
data of 1994 are not so deep, but they were obtained under
the best seeing, of 1. ## 15, and with excellent guiding so they
are considered as a reference set for the central 5 ## . One can
see that all the measurements agree rather well in the radius
range of 4 ## --30 ## . Though the galaxy is classified as E0, it is not
perfectly round: the minimum ellipticity measured is 0.05, and
the average one is 0.07--0.08. It is enough to measure reliably the
orientation of the isophote major axis: in the full radius range
the majoraxis position angle looks approximately constant and
is confined to the interval PA 0 = 20 # ± 10 # .
We have constructed azimuthally averaged surface bright
ness profiles in the V and Ibands by taking data along ellip
tical rings with the axis ratio 0.93 and orientation PA 0 = 17 #
corresponding to the results of our morphological analysis (the
Iband profile is shown in Fig. 2). We have applied the program
of de Vaucouleurslaw fitting to these profiles to analyse the
Fig. 2. Azimuthally averaged profile of the surface brightness in the
Iband according to our Z600 data fitted by a single de Vaucouleurs's
law. The accuracy of observational points is comparable to the size of
signs
structure of the brightness distribution. The bestfitted Iband
model profile obtained is also plotted in Fig. 2. The impression
is that these profiles cannot be perfectly fitted only by a de Vau
couleurs' law in the full range of radii: the r. m. s. scatters of
points around the model profiles are 0.05 mag in the V band and
0.07 mag in the Iband while the accuracy of azimuthally aver
aged points is better everywhere than 0.035 mag; however the
profiles may be characterized as spheroiddominated. For the
V band image we have derived the de Vaucouleurs' parameters
µ e = 22.1±0.1 V mag/## ## and r e = 19 ## ±1 ## (6.1 kpc); for the
Iband image the fitting of the de Vaucouleurs' spheroid implies
a scalelength r e = 18. ## 4 ± 0. ## 5 (5.9 kpc) and the corresponding
effective surface brightness µ e = 20.65 ± 0.05 Imag/## ## . The
surface photometry of NGC 759 in the V band was earlier made
by Schombert (1986) through the photographic method; he fit
ted the brightness profile at R > 3 kpc by a de Vaucouleurs'
law and had found µ e = 21.6 V mag/## ## and r e = 6.9 kpc --
not too different from our results.
After obtaining the best de Vaucouleurs' model for the
NGC 759 surface brightness distribution, we have subtracted
the model brightness maps from the observed images and have
obtained smooth and round brightness residual structures with
the radius of # 16 ## (Fig. 3); the mean contribution of this resid
ual surface brightness to the total one is about 10% in both filters.
Well inside this round brightness excess something more elon
gated, with the PA 0 # 15 # , the major semiaxis of # 8 ## , and
b/a # 0.7, can be detected. The azimuthally averaged Iband
profile of the residual surface brightness is presented in Fig. 4,
in the top part. In the radius range of 3 ## --16 ## one can see two ex
ponential segments meeting at R # 8 ## . Obviously, the residual

V.V. Vlasyuk & O.K. Sil'chenko: NGC 759: A giant elliptical with a justforming decoupled nucleus 31
Table 3. Photometric observations of NGC 759
Date Telescope Filter Exposure Seeing Scale
7/8.09.94 JKT R 300 s 1. ## 15 0. ## 31
5/6.11.96 JKT I 360 s 2. ## 2 0. ## 31
9/10.08.98 Z1000 B 180 s 2. ## 7 0. ## 51
9/10.08.98 Z1000 V 120 s 2. ## 5 0. ## 51
9/10.08.98 Z1000 R 60 s 2. ## 6 0. ## 51
9/10.08.98 Z1000 I 120 s 2. ## 2 0. ## 51
19/20.10.98 Z600 V 1800 s 1. ## 55 0. ## 45
19/20.10.98 Z600 R 1800 s 1. ## 5 0. ## 45
19/20.10.98 Z600 I 1800 s 1. ## 6 0. ## 45
Fig. 3. The residual brightness map in the Iband after subtraction of
the bestfit de Vaucouleurs' model. The full dimensions of the field
shown is 115 ## в 115 ## .
structure represents two stellar disks whose appearance in the
V filter inside R = 5 ## is strongly affected by dust. The param
eters of fitting by two exponential laws applied to the Iband
residual brightness profile are:
-- in the radius range of 8 ## --14 ## µ 0 = 20.8 Imag/## ## and
r 0 = 5. ## 0 (this disk is seen under i = 21.5 # to provide the
ellipticity of 0.07),
-- and in the radius range of 3 ## --8 ## µ 0 = 18.8 Imag/## ## and
r 0 = 1. ## 9 (this disk is seen under i = 40 # to provide the
ellipticity of 0.3).
If we assume the distance to NGC 759 to be 66 Mpc (Wiklind
et al. 1997), we obtain the stellar disks with the radii of 2.6
and 5 kpc and the exponential scalelengths of 0.6 and 1.6 kpc,
respectively. The final fitting result in the frame of the composite
Iband model is plotted in the bottom part of Fig. 4.
Fig. 5 presents azimuthally averaged profiles of the (V -R)
and (V - I) colour distributions. Besides the smooth colour
gradients in the main body of the galaxy, one can see a prominent
feature -- a sharp bump at R = 3. ## 5. The colour image detail
Fig. 4. The azimuthally averaged profile of the surface brightness resid
uals after subtracting the pure de Vaucouleurs' spheroid which we have
fitted by two exponential laws (top) and the azimuthally averaged pro
file of the total surface brightness in the Iband according to our Z600
data fitted by a composite model bulge+two disks (bottom).
Fig. 5. Azimuthally averaged colour profiles
corresponding to this peak (Fig. 6) looks like a red semiellipse
with the major axis aligned in PA # 20 # . The asymmetry of
the feature obviously related to the line of nodes implies that
the dust ring is inclined with respect to the symmetry plane of
the galaxy. The ellipticity of this structure, 1 - b/a # 0.2, is
consistent with the flat ring inclination of 40 # ; curiously, just
the same inclination of the circumnuclear molecular gas ring
has been suggested by Wiklind et al. (1997) from dynamical
arguments, and the inner stellar disk is seen under a similar
inclination. We think that the red semiellipse on the (V - I)

32 V.V. Vlasyuk & O.K. Sil'chenko: NGC 759: A giant elliptical with a justforming decoupled nucleus
Fig. 6. The grayscaled (V - I) map of the central part of NGC 759:
dark regions correspond to the redder ones. North is up, east is to the
left, the total map dimensions are 57. ## 6 в 57. ## 6. The artificially white
square marks the nucleus of the galaxy.
map results from a flat ringlike dust concentration related to
the molecular gas ring with the inner radius of 1 ## and the outer
radius of 3 ## reported by Wiklind et al. (1997). This suggestion
is also confirmed by the central (R < 5 ## ) depression of the V
surface brightness profile of the disk component.
4. Kinematics of stars and ionized gas
in the center of NGC 759
Fig. 7 presents isovelocity maps for the stars and ionized gas
in the center of NGC 759 which have been obtained with the
MultiPupil Field Spectrograph.
First of all, one must note that the stellar rotation in the very
center of NGC 759 is much faster than one could expect for
the E0type galaxy. It may be that the stellar core of NGC 759
is dynamically decoupled. The direction of the maximum cen
tral lineofsight velocity gradient (``the dynamical major axis'')
is PA 0 = 22 # ; it coincides with the photometric major axis
(Fig. 1), and this coincidence signifies that we see clear evidence
of regular axisymmetric rotation. The low limit of the rotation
angular velocity defined by projection effects is 66 km/s/kpc.
Such a high central velocity gradient is typical rather for an
earlytype disk galaxy.
The rotation of the ionized gas in the center of NGC 759
is even more striking. Its projected angular rotation velocity
reaches 235 km/s/kpc; the whole velocity field (Fig. 7b) looks
like a solidbody rotating disk with a radius of # 3 ## while
v rot sin i is 220 km/s at the edge of this disk. This estimate
agrees very well with the projected rotation speed of the molec
ular gas torus having the same radius of # 3 ## which has been
reported by Wiklind et al. (1997). However as we have some
what higher spatial resolution than Wiklind et al. (1997) had,
we estimate the orientation of the dynamical major axis of gas
rotation more precisely: our value PA 0 = 18 # agrees with the
stellar dynamical and photometric major axis orientations.
Additional evidence for the fast rotation of the circumnu
clear ionized gas is given by our longslit spectrum in PA =
90 # . This crosssection is taken by 70 # to the dynamical major
axis. The emission lines in the vicinity of the nucleus consist
of two components separated by some 300 km/s. The appear
ance of two discrete peaks of emissionline profiles argues an
existence of the hole in the gaseous disk emission surface bright
ness in the very center of the galaxy -- here a clear analogy to the
doublehorned COline profile obtained during the singledish
CO observations of NGC 759 (Wiklind et al. 1997) is seen.
5. Star formation in the circumnuclear gaseous disk
When Wiklind et al. (1997) obtained a ringlike distribution
of the molecular gas in the center of NGC 759, they had cal
culated a radial dependence of the gravitational stability pa
rameter, # gas /# crit , demonstrating a maximum, close to 1, at
R # 2 ## , and had concluded that there may be a ring of star
forming H ii regions with the same radius in this galaxy. The
significant present star formation in NGC 759 had also been
implied by its prominent FIR luminosity: it has L fir /LB = 0.3
(Wiklind et al. 1995) which is higher by an order of magnitude
than a typical L fir /LB ratio for elliptical galaxies and exceeds
by a factor of two the maximum ratios found by Goudfrooij
& de Jong (1995) for their complete RSA sample of nearby
elliptical galaxies. Now we can confirm the supposition of Wik
lind et al. (1997) by a direct twodimensional observation of the
emissionline ratio distribution.
Fig. 8 gives a comparison of the spectra in the vicinity of H#
between the nucleus and the ring with the radius of 2. ## 7 and the
width of 1. ## 4. One can see that while in the nucleus the intensi
ties of the emission lines H# and [N ii]#6583 are roughly equal
which is a signature of substantial contribution from the LINER
like nucleus, in the threearcsecond ring the H# is twice as strong
as [N ii] -- it is typical for a starforming site where massive stars
ionize the gas (Veilleux & Osterbrock 1987). We can estimate
roughly the star formation rate by using the integrated H# flux.
First of all, we have summed the individual element spectra
from our MPFS frame over the area of 7 ## в 8 ## centered onto
the nucleus which contains noticeable H# emission. We then
calculated an equivalent width of the H# emission line in the in
tegrated spectrum, showing that it is equal to 4.1 љ
A. As we must
also take into account the presence of H# absorption we add
some 2 љ
A to this value (because it is a typical H# absorptionline
equivalent width for old stellar populations; see for example our
model calculations, Balinskaya & Sil'chenko, 1993) and obtain
6 љ
A. Next we calculate a V magnitude in the same aperture by
using our photometric data, showing it to be 14.7 mag. Through
transforming this estimate into energetic units by a standard way
(Allen 1973), we obtain LH# (7 ## в8 ## ) = 1.65 · 10 40 erg/s. This
H# luminosity corresponds to the total star formation rate of
0.13 M
# per year if we use the calibration of Kennicutt et al.
(1994). The uncertainty of this estimate may be a factor of 2--3;
however it is quite inconsistent with the estimate of 7 M
# per

V.V. Vlasyuk & O.K. Sil'chenko: NGC 759: A giant elliptical with a justforming decoupled nucleus 33
Fig. 7. Twodimensional line
ofsight velocity fields for the
stars (a) and for the ionized gas
(b) in the center of NGC 759
Fig. 8. Emissionline spectra of the nucleus and of the 3 ## --ring of
NGC 759
year made by Wiklind et al. (1997) from the IRAS luminosity
of NGC 759. The discrepancy of these two estimates proba
bly results from the ambiguous nature of IRAS flux in ellipti
cal galaxies: e.g. dust mass in elliptical galaxies estimated from
L fir is larger by an order of magnitude than dust mass estimated
from optical observations (Goudfrooij et al. 1994). There were
suggestions that dust which produces FIR radiation in ellipti
cal galaxies may be mostly the dust in the envelopes of highly
evolved stars (red giants), and not the dust heated by young
stars. As NGC 759 only has upper limits for S 12 and S 25 , this
may be the case.
6. Discussion and conclusions
By undertaking a spectral and photometric investigation of the
central part of the bright elliptical galaxy NGC 759, we have
found an optical counterpart for the circumnuclear molecular
gas ring with R # 3 ## (1 kpc) which was reported by Wiklind et
al. (1997). This counterpart consists of the ionized gas excited by
young massive stars as well as of dust. The gaseous ring exhibits
fast rotation: its projected rotation velocity at R # 3 ## measured
by us is equal to about 220 km/s and agrees perfectly with the re
sult of Wiklind et al. (1997) for the molecular gas ring. This large
projected rotation velocity value together with the asymmetric
appearance of the dust ring on the (V - I) colour map con
firm the hypothesis of Wiklind et al. (1997) about a rather high
inclination of the gas rotation plane: our data favours i # 40 #
proposed by them for the molecular gas ring. Meantime the 2D
decomposition of the galaxy images both in the V and I bands
has revealed an existence of the brightness excess with respect
to the de Vaucouleurs' spheroid: this extracomponent is seen in
the radius range of 3 ## --16 ## and consists of two exponential disks
with different inclinations. The more outer disk is seen almost
faceon and has structural parameters typical for ordinary disk
galaxies: µ 0 = 20.8 Imag/## ## and r 0 = 1.6 kpc. The innermost
stellar disk, if it is intrinsically round, is inclined by # 40 # , just
as the circumnuclear gaseous ring; this morphological estimate
of the disk inclination is consistent with its visible fast rotation
untypical for E0 galaxies. The visible orientation of its line of
nodes, PA 0 # 20 # , agrees also with the dynamical major axis
derived by us from the twodimensional stellar velocity field of
the central part of NGC 759. The structural parameters of the
innermost disk, µ 0 = 18.8 Imag/## ## and r 0 = 0.6 kpc, are
more appropriate to compact inner disks of luminous elliptical
galaxies (Iodice et al. 1999).
Having structural parameters of NGC 759, it would be in
teresting to look what place it occupies among other elliptical
galaxies, particularly, on the ``Fundamental Plane''. We have
plotted NGC 759, with its R e # 6 kpc and µ e # 23.1 B
mag/## ## , in Fig. 4 from the paper of Capaccioli et al. (1992)
where the Kormendy' relation for a lot of earlytype galaxies is

34 V.V. Vlasyuk & O.K. Sil'chenko: NGC 759: A giant elliptical with a justforming decoupled nucleus
presented and have assured that it follows the sequence for the
family of bright ellipticals, in accordance to its MB = -20.7.
So the galaxy is well relaxed even if it has experienced a recent
merging.
But we know now that NGC 759 possesses also stellar disks,
in addition to the de Vaucouleurs' spheroid. Iodice et al. (1999)
have reported recently results of 2D decomposition for the im
ages of earlytype galaxies in the nearby clusters Virgo and For
nax. They have found that # 25% of elliptical galaxies demon
strate inner exponential stellar disks; tight correlations between
their µ 0 and h, and also between R e and h are detected. The
innermost disk in NGC 759 with its µ 0 # 21 Bmag/## ## and
h = 0.6 kpc, follows the µ 0 -h relation for the disks within el
lipticals which is presented by Iodice et al. (1999) in their Fig. 3.
Moreover, its scalelength satisfies the R e - h dependence for
the family of inner disks inside bright ellipticals (their Fig. 4)
though it is still one of the most extended among a dozen such
disks (perhaps it is because NGC 759 is four times farther from
us than Virgo and Fornax clusters and our estimate of h in , 1. ## 9,
is close to our spatial resolution limit). The latter dependence
is treated by Iodice et al. (1999) as evidence of coupling during
disk and spheroid formation; however the high inclination of
the innermost stellar disk, consistent with the inclination of the
circumnuclear gaseous ring, allows us to suggest that the inner
most stellar disk is related to a recent gas accretion event and star
formation in the 3 ## ring around the nucleus. Besides the inner
most inclined disk we also see a more extended faceon disk. Its
origin probably is not related either to a recent merger, nor to the
circumnuclear gaseous ring. The lack of relation is proved by
different orientations of the 1kpc gaseous ring and of the 5kpc
stellar disk: the former is inclined by i # 40 # and the latter is
seen faceon, hence their rotation momenta must be decoupled.
Taking into account all of the above, we would like to conclude
that the circumnuclear gaseous ring in NGC 759 is not a relic
of a merger of two large spiral galaxies; such a merger does not
seem to provide a survival of the extended faceon stellar disk.
More likely, this ring may be a consequence of a tidal encounter
between the elliptical galaxy NGC 759 and a large spiral galaxy
which was accompanied by a substantial gas accretion.
Acknowledgements. We thank the postgraduate student of the
Special Astrophysical Observatory A. V. Moiseev for supporting
the observations at the 6m telescope. The 6m telescope is operated
under the financial support of Science Ministry of Russia (regis
tration number 0143). During the data analysis we have used the Lyon
Meudon Extragalactic Database (LEDA) supplied by the LEDA team
at the CRALObservatoire de Lyon (France) and the NASA/IPAC Ex
tragalactic Database (NED) which is operated by the Jet Propulsion
Laboratory, California Institute of Technology, under contract with
the National Aeronautics and Space Administration. This research has
made use of the La Palma Archive. The telescope JKT is operated on
the island of La Palma by the Royal Greenwich Observatory in the
Spanish Observatorio del Roque de los Muchachos of the Instituto de
Astrofisica de Canarias. The work was supported by the grant of the
Russian Foundation for Basic Researches 980216196, by the grant
of the President of Russian Federation for young Russian doctors of
sciences 981596029 and by the Russian State ScientificTechnical
Program ``Astronomy. Basic Space Researches'' (the section ``Astron
omy'').
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