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Box- and peanut-shaped bulges. III. A new class of bulges: Thick Boxy Bulges
Inspecting all 1224 edge-on disk galaxies larger than 2\arcmin in theRC3 on Digitized Sky Survey (DSS) images (Lütticke et al.\cite{lue2000a}) we have found several galaxies with extraordinarybulges meeting two criteria: they are box shaped and large in respect tothe diameters of their galaxies. These bulges are often disturbed, showfrequently prominent irregularities and asymmetries, and some possesspossible merger remnants or merging satellites. For these bulges we haveintroduced the term ``Thick Boxy Bulges'' (TBBs). About 2% of all diskgalaxies (S0-Sd), respectively 4% of all galaxies with box- andpeanut-shaped (b/p) bulges, belong to this class of galaxies. Usingmulticolour CCD and NIR data we have enlarged and followed up our sampleof nearly 20 galaxies with a TBB. The disturbed morphology of a largefraction of these galaxies shows that many of the TBB galaxies are notdynamically settled. For the TBBs the extent of the box shape seems tobe too large to result from a normal bar potential. Therefore weconclude that two classes of b/p bulges exist with different origins.While most (96%) b/p bulges can be explained by bars alone(Lütticke et al. \cite{lue2000b}), the extended boxy structures ofTBBs result most likely from accreted material by infalling satellitecompanions (soft merging).
| Multi-Wavelength Studies of Merging Bulge Galaxies
In a statistical study to determine the frequency of the box/peanutbulges a small fraction of edge-on galaxies was found to possessdisturbed and prominent box-shaped bulges called Thick Boxy Bulges(TBBs, Lütticke et al. 2000). It present, N-body and hydrodynamicalsimulations for stars in barred potentials and gas kinematic studieshave demonstrated that resonances induced by bars are able to reproducethe box/peanut structure and the observed complex gas kinematics ingalactic centers. In the galaxies investigated here, however, the bulgeextent is much too large to be explained by resonant orbits in a barpotential. An alternative mechanism is the infall of gas throughaccretion events. In order to study the photometric properties of theseTBBs (such as the scale-height, the surface brightness profiles, and theasymmetries), we have obtained B, R, and H (or Ks) imaging data. Forsome of these galaxies VLA and ATCA HI synthesis imaging is presented.It is noticeable that the HI in them is distributed in a peculiar way:in a strong warped disk (ESO 383-005), with non-settled (perhapscounter-rotating) gas (IC 4745), with clumps of emission (NGC 1055), orin a patchy distribution (IC 4757). We discuss these observations in thecontext of the hypothesis that minor mergers of companions have a stronginfluence on building bulges in the TBB galaxies. The infall of low-masssatellites could be the natural explanation of the vertically extendedcomponents and the other kinematical peculiarities, as well as thethickness of the box-shaped bulges in the TBB galaxies.
| Nearby Optical Galaxies: Selection of the Sample and Identification of Groups
In this paper we describe the Nearby Optical Galaxy (NOG) sample, whichis a complete, distance-limited (cz<=6000 km s-1) andmagnitude-limited (B<=14) sample of ~7000 optical galaxies. Thesample covers 2/3 (8.27 sr) of the sky (|b|>20deg) andappears to have a good completeness in redshift (97%). We select thesample on the basis of homogenized corrected total blue magnitudes inorder to minimize systematic effects in galaxy sampling. We identify thegroups in this sample by means of both the hierarchical and thepercolation ``friends-of-friends'' methods. The resulting catalogs ofloose groups appear to be similar and are among the largest catalogs ofgroups currently available. Most of the NOG galaxies (~60%) are found tobe members of galaxy pairs (~580 pairs for a total of ~15% of objects)or groups with at least three members (~500 groups for a total of ~45%of objects). About 40% of galaxies are left ungrouped (field galaxies).We illustrate the main features of the NOG galaxy distribution. Comparedto previous optical and IRAS galaxy samples, the NOG provides a densersampling of the galaxy distribution in the nearby universe. Given itslarge sky coverage, the identification of groups, and its high-densitysampling, the NOG is suited to the analysis of the galaxy density fieldof the nearby universe, especially on small scales.
| Box- and peanut-shaped bulges. I. Statistics
We present a classification for bulges of a complete sample of ~ 1350edge-on disk galaxies derived from the RC3 (Third Reference Catalogue ofBright Galaxies, de Vaucouleurs et al. \cite{rc3}). A visualclassification of the bulges using the Digitized Sky Survey (DSS) inthree types of b/p bulges or as an elliptical type is presented andsupported by CCD images. NIR observations reveal that dust extinctiondoes almost not influence the shape of bulges. There is no substantialdifference between the shape of bulges in the optical and in the NIR.Our analysis reveals that 45% of all bulges are box- and peanut-shaped(b/p). The frequency of b/p bulges for all morphological types from S0to Sd is > 40%. In particular, this is for the first time that such alarge frequency of b/p bulges is reported for galaxies as late as Sd.The fraction of the observed b/p bulges is large enough to explain theb/p bulges by bars. Partly based on observations collected at ESO/LaSilla (Chile), DSAZ/Calar Alto (Spain), and Lowell Observatory/Flagstaff(AZ/U.S.A.). Tables 6 and 7 are only available in electronic form at CDSvia anonymous ftp to cdsarc.u-strasbg.fr (130.79.128.5) or viahttp://cdsweb.u-strasbg.fr/Abstract.html
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