Sb Galaxies Research Articles

The outer Lindblad resonance and the morphology of early type disk galaxies

The morphology of outer rings and pseudorings in SB and SAB galaxies includes a number of distinct categories that bear a remarkable resemblance to the gaseous rings which have developed near the outer Lindblad resonance in n-body models of barred spirals. This paper displays these categories using CCD images and color index maps of 22 galaxies from the Catalogue of Southern Ringed Galaxies (CSRG). The prominence of the OLR morphologies in these and many other galaxies provides an important handle on pattern speeds of bars and ovals, as well as insights into internal dynamics. It also provides an important distinction to be considered when comparing early and late-type galaxies

H I content and FIR emission of S0 galaxies

view Abstract Citations (30) References (38) Co-Reads Similar Papers Volume Content Graphics Metrics Export Citation NASA/ADS H I Content and FIR Emission of S0 Galaxies Eskridge, Paul B. ; Pogge, Richard W. Abstract We have examined the relationship between H I content and FIR emission of a sample of 252 S0 galaxies. Using statistical methods that take limit values into account (survival analysIs), we evaluate a best-fit linear regression line for the logarithms of the H I content versus the FIR emission (both scaled by the blue flux) with a slope of roughly unity. This slope is not significantly different for subsets of barred versus unbarred galaxies; however, the slopes differ for S0 and SB0 galaxies (the "S0 sample") versus S0/a and SB0/a galaxies (the "S0/a sample") at the 96% confidence level. Applying the Kaplan-Meier estimator and a battery of two-sample tests, we find that the presence or absence of bars does not affect either the relative H I content or FIR emission in our sample. These tests do show the S0/a sample to have relatively more H I and stronger FIR emission than the S0 sample. The presence or absence of bars, and the differences between S0 and S0/a systems do not significantly affect the distribution of the 6-100μm flux ratio (r_60/100_) Roughly 34% of our sample has r_60/100_>= 0.447, the critical value of Helou above which a majority of the FIR emission is expected to be due to star formation. Repeating these analyses on a sample from which all systems with known nuclear emission have been removed does not yield significantly different results. However, among the subset of known AGN, the relative FIR emission and relative H I content are greater than for the normal S0 galaxies to many σ. Our results indicate that, by and large, S0 galaxies have a normal ISM, at least for those components probed by the H I line and satellite FIR. Where there are glaring exceptions to this, comparison with other observations indicates that those systems with relatively more H I than expected on the basis of their FIR emission appear to have accreted their H I gas. Those systems with excess FIR emission for their H I content may be examples of galaxies that have been swept of their H I gas, or that are currently undergoing bursts of enhanced star formation. Publication: The Astronomical Journal Pub Date: June 1991 DOI: 10.1086/115829 Bibcode: 1991AJ....101.2056E Keywords: Active Galactic Nuclei; Emission Spectra; Far Infrared Radiation; Hydrogen; Spiral Galaxies; Interstellar Gas; Markarian Galaxies; Star Formation; Statistical Analysis; Astrophysics; GALAXIES: GENERAL full text sources ADS | data products NED (254) SIMBAD (251)

Weakly barred early-type ringed galaxies. IV - The double-ringed SO(+) galaxy NGC 7702

view Abstract Citations (32) References (44) Co-Reads Similar Papers Volume Content Graphics Metrics Export Citation NASA/ADS Weakly Barred Early-Type Ringed Galaxies. IV. The Double-ringed S0 + Galaxy NGC 7702 Buta, R. Abstract The southern galaxy NGC 7702 is an interesting example of a late S0 galaxy showing a high-contrast inner ring surrounding a bright bulge, with no conventional bar crossing the ring as in typical SB(r)-type galaxies. It also has a low-contrast outer ring whose peak surface brightness is only ~ 6% of the night sky brightness in blue light. This paper presents UBVRI CCD surface photometry of NGC 7702 as a mean of evaluating its structure and properties with a view toward understanding the origin of the rings and how they relate to problems of internal dynamics. The photometry reveals the typically complex structure of a double-ringed galaxy both in terms of profile properties and color distribution. The inner ring is a subtle blue enhancement compared to its surroundings, and in addition shows azimuthal variations in color and surface brightness, due in part to internal extinction and tilt and also probably to an intrinsically oval shape. Long-exposure spectra taken along the major and minor axes reveal mainly a continuous spectrum in the inner ring region, and average colors are consistent with a feature that may have experienced a burst of star formation less than 2 x 10^9^ yr ago which abruptly cut off after 10^7^ yr. The bulge of the galaxy shows a distinctive oval shape and may be characterized as a nuclear bar ~ 1 kpc in diameter; it is reminiscent of the triaxial bulges observed in some SB galaxies. Fourier analysis also suggests that the inner ring lies near the boundary of an oval distortion or lens. The nonaxisymmetric component (excluding the nuclear oval) contributes about 14% of the total B band luminosity. Although NGC 7702 is not a conventional barred galaxy, the two rings possess many properties in common with barred galaxy rings. It is possible that NGC 7702 once had a stronger, more important bar which lasted long enough to generate the rings but which is now mostly dissolved. The triaxial bulge may be a relic of such a past feature. Publication: The Astrophysical Journal Pub Date: March 1991 DOI: 10.1086/169797 Bibcode: 1991ApJ...370..130B Keywords: Barred Galaxies; Galactic Evolution; Galactic Structure; Ring Galaxies; Astronomical Photometry; Charge Coupled Devices; Galactic Bulge; Southern Sky; Star Formation; Astrophysics; GALAXIES: INDIVIDUAL NGC NUMBER: NGC 7702; GALAXIES: PHOTOMETRY; GALAXIES: STRUCTURE full text sources ADS | data products SIMBAD (19) NED (1) Related Materials (3) Part 1: 1990ApJ...351...62B Part 2: 1990ApJ...354..428B Part 3: 1990ApJ...356...87B

Statistical evidence that galaxy companions trigger bars and change the spiral Hubble type

view Abstract Citations (101) References (30) Co-Reads Similar Papers Volume Content Graphics Metrics Export Citation NASA/ADS Statistical Evidence That Galaxy Companions Trigger Bars and Change the Spiral Hubble Type Elmegreen, Debra Meloy ; Elmegreen, Bruce G. ; Bellin, Andrew D. Abstract The number of barred (SB-type) galaxies relative to the total number of spiral galaxies in binary and group systems and in the field has been examined. Among field and group galaxies, 0.32 +/- 0.09 and 0.28 +/- 0.02 of all early Hubble-type spirals are SB, whereas in binary systems, 0.50 +/- 0.05 are SB. There is no obvious correlation like this for intermediate and late-type galaxies. This result implies that close galaxy companions are associated with bar formation, but primarily for early Hubble-types. In addition, the relative fraction of early-type galaxies (Sa-Sb) among all types Sa-Scd is examined. Among binary SB galaxies, the early-type fraction is 0.77 +/- 0.05 whereas among all SA types in any environment the early-type fraction is only 0.44 +/- 0.02. Thus binary galaxies tend to be both barred and early type. Considering recent N-body simulations, we suggest that galaxy interactions produce strong spirals, which, because of their torques, lead to bar formation and a significant mass inflow in the disk. For a prolonged encounter, the mass inflow can apparently change a nonbarred galaxy of intermediate Hubble-type, Sbc-Scd, to a barred galaxy of early Hubble-type, SBa-SBb, by making the galaxy density larger in the inner region and by removing a significant amount of the gas mass and, therefore star formation, from the outer disk. Publication: The Astrophysical Journal Pub Date: December 1990 DOI: 10.1086/169424 Bibcode: 1990ApJ...364..415E Keywords: Barred Galaxies; Galactic Clusters; Galactic Structure; Interacting Galaxies; Space Density; Statistical Analysis; Astrophysics; GALAXIES: CLUSTERING; GALAXIES: INTERACTIONS; GALAXIES: STRUCTURE full text sources ADS |

The Hubble relation: Differences between galaxy types Sb and Sc

The most accurate data on galaxy types, corrected apparent magnitudes and redshifts as given in the Sandage-TammanRevised Shapley-Ames catalog are analyzed. It is shown that Sb galaxies of the same luminosity class as M31 and M81 define a narrow Hubble relation withH0=65 −6 +15 km s−1 Mpc−1.

Molecular gas, the interstellar medium, and star formation in S0 and SA galaxies

The results are presented of a survey for CO J = 1 - 0 emission from S0 and S0/a galaxies. The results show that molecular gas is abundant within some early-type disk galaxies, and that the range in the ratio of molecular gas to atomic gas mass is similar to those in other disk galaxies. In the S0 and S0/a galaxies studied, estimated rates of star formation are substantially smaller than, but efficiencies of star formation are roughly the same as, those in Sb or Sc galaxies. Although the rate of cooling of the hot, X-ray emitting gas may be close to the estimated stellar mass return rate in the sample, the star formation rate probably exceeds both by a significant factor.

Planetary nebulae as standard candles. III - The distance to M81

The results of a survey for PN in the nearby Sb galaxy M81 are reported, including the identification of 185 PN candidates. A distance to M81 of 3.50 + or - 0.40 Mpc is derived using the methods outlined by Ciardullo, et al. (1989). This value compares very well with values derived using traditional methods. Based on this agreement, it is concluded that PN are as good as, or better than, other standard candles for deriving distances to galaxies beyond 10 Mpc.

The distribution of dark matter in galaxies. I - Models of spiral galaxies

view Abstract Citations (65) References (15) Co-Reads Similar Papers Volume Content Graphics Metrics Export Citation NASA/ADS The Distribution of Dark Matter in Galaxies. I. Models of Spiral Galaxies Lake, George ; Feinswog, Laurie Abstract We examine the limits on the distribution of dark matter in galaxies from published rotation curves and photometry. We assume constant mass-to-light ratios for the luminous components and an isothermal model for the halo, and examine a collection of 37 optical rotation curves of Sb and Sc galaxies and 16 H I rotation curves to constrain the halo's core radius r_c_, and the asymptotic velocity v_max_. We find that the central density of the halo (proportional to v^2^_max_ r^-2^_c_) is often well determined. In only three cases, NGC 2403, NGC 2903, and NGC 3198, do we find that the data constrain both r_c_, and υ_max_ rather than just the ratio v_max_/r_c_. These three galaxies are all Sc's and span less than a factor of 2 in luminosity. The constraints are similar in each of the three cases. The limits are typically r_c_ <~ 8 kpc and v_max_ <~ 170 km s^-1^. Experimenting with rotation curves constructed by manipulating that observed for NGC 3198, we find that high-quality data to 6.5-8 disk scalelengths is needed to constrain the parameters. We test whether the observations determine the form of the density distribution by fitting models with r^-3^ and r^-4^ density profiles outside a core radius. We find acceptable fits for such models. Publication: The Astronomical Journal Pub Date: July 1989 DOI: 10.1086/115134 Bibcode: 1989AJ.....98..166L Keywords: Astronomical Models; Dark Matter; Mass To Light Ratios; Spatial Distribution; Spiral Galaxies; Astronomical Photometry; Density Distribution; Galactic Rotation; Astrophysics; GALAXIES: INTERNAL MOTIONS; GALAXIES: STRUCTURE full text sources ADS | data products SIMBAD (9) NED (6) Related Materials (1) Part 2: 1989AJ.....98.1253L

Modal approach to the morphology of spiral galaxies. I - Basic structure and astrophysical viability.

view Abstract Citations (237) References (61) Co-Reads Similar Papers Volume Content Graphics Metrics Export Citation NASA/ADS Modal Approach to the Morphology of Spiral Galaxies. I. Basic Structure and Astrophysical Viability Bertin, G. ; Lin, C. C. ; Lowe, S. A. ; Thurstans, R. P. Abstract The principal objective of the investigations described in the present paper is the demonstration of the viability of the modal approach to global spiral structures in galaxies of all Hubble morphological types. This is done through (1) the identification of the appropriate basic states of galaxy models from the dynamical point of view, and (2) the demonstration of their compatibility with observations from the physical point of view. The modal approach is preferred to a direct evolutionary approach because it is believed that the observed spiral structure in the majority of galaxies is associated with the late states of an evolutionary process and that the pitch angle of the spiral arms of a galaxy can be used as a criterion for determining its Hubble type. From a dynamical point of view, it is shown that barred spiral modes are likely to occur for relatively large disk masses. Specifically, the ratio R_A_ for active disk/total mass (see Section III) within four exponential scale lengths for such spiral galaxies should be on the order of 30% or larger. There is in general only a single important unstable mode; thus, a regular quasi-stationary barlike structure may be expected. Normal spirals occur for lower active disk masses, especially those with lower pitch angles (Sa and Sb galaxies). From the physical point of view, this lower active disk mass is associated with the three-dimensional distribution of the stellar component, including the relatively large nuclear bulge. A long-standing challenge in the case of normal spirals of small pitch angle is resolved. A new perception of the basic structure of these galaxies is proposed. For such normal spirals, the gaseous component plays an essential role, both in the excitation of the unstable spiral modes and in the stable maintenance of the final spiral structure. Indeed, dynamical studies indicate that a condition of marginal instability must be realized at large galactocentric distances and that a large part of the active galactic disk, with the possible exception of the central part, must be relatively "cool." Physically, this is realistic because of the three-dimensional distribution of stellar mass, especially in the central regions. The length scale of the active mass distribution is often found to be about twice as large as the exponential length scale of the optical disk. For the type of basic states considered, we expect in many cases two-armed spiral structures extending over a few exponential length scales, often with multiple winding. In particular, when the number of important spiral modes is small, the spiral structure is expected to have a highly regular grand design and to evolve in time in a quasistationary manner. Publication: The Astrophysical Journal Pub Date: March 1989 DOI: 10.1086/167182 Bibcode: 1989ApJ...338...78B Keywords: Astronomical Models; Cosmology; Galactic Structure; Spiral Galaxies; Astronomical Spectroscopy; Dark Matter; Density Distribution; Galactic Bulge; Galactic Evolution; Galactic Mass; Astrophysics; GALAXIES: INTERNAL MOTIONS; GALAXIES: STRUCTURE; STARS: STELLAR DYNAMICS full text sources ADS | data products SIMBAD (13) NED (13) Related Materials (2) Part 2: 1989ApJ...338..104B Part 3: 1994ApJ...427..184L

Deterministic Self-Propagating Star Formation

AbstractThe evolution of large scale expanding structures in differentially rotating disks is studied. High column densities in some places may eventually lead to molecular cloud formation and initiate also star-formation. After some time, multi-structured arms evolve, where regions of intensive star-formation are separated from each other by regions of atomic gas or molecular clouds. This is due to the deterministic nature and to the coherence of this process. A simple model of galactic evolution is introduced and the different behaviour of Sa, Sb, and Sc galaxies is shown.

On the observed shape of the stellar rotation curve in bars

view Abstract Citations (30) References (26) Co-Reads Similar Papers Volume Content Graphics Metrics Export Citation NASA/ADS On the Observed State of the Stellar Rotation Curve in Bars Bettoni, Daniela Abstract The analysis of the rotation curves observed along the bar of seven SB0 galaxies shows that they are characterized by a typical wavy shape. Among these galaxies is IC 456, for which new kinematical data are presented here. We explore the possibility that this observational feature is typical of the stellar motions in bars. Some interpretations of it as an indication of retrograde stellar streamings are also discussed, on the basis of the models of bars existing at present. Publication: The Astronomical Journal Pub Date: January 1989 DOI: 10.1086/114958 Bibcode: 1989AJ.....97...79B Keywords: Barred Galaxies; Galactic Rotation; Stellar Motions; Stellar Rotation; Astronomical Models; Many Body Problem; Orbital Mechanics; Astronomy; GALAXIES: INTERNAL MOTIONS; GALAXIES: STRUCTURE full text sources ADS | data products SIMBAD (7) NED (7)

High-Resolution Observations of the M81 Nucleus

The nucleus of the nearby Sb galaxy M81 has been shown to exhibit many of the features prominent in luminous active galactic nuclei: a variable, compact VLBI radio source (Kellermann et al. 1976, Jones, Sramek and Terzian 1981), a central variable X-ray source (Elvis and van Speybroeck 1982, Fabbiano 1988), and broad wings of Balmer emission similar in extent to those typical to Seyfert 1 nuclei (Peimbert and Torres-Peimbert 1981, Shuder and Osterbrock 1981). The nucleus also shows a narrow-line spectrum in many ways typical of LINERs (Heckman 1980), now known to be representative of early-type spiral nuclei in general.

Rotation curves for spiral galaxies in clusters. I - Data, global properties, and a comparison with field galaxies

view Abstract Citations (76) References (47) Co-Reads Similar Papers Volume Content Graphics Metrics Export Citation NASA/ADS Rotation Curves for Spiral Galaxies in Clusters. I. Data, Global Properties, and a Comparison with Field Galaxies Rubin, Vera C. ; Whitmore, Bradley C. ; Ford, W. Kent, Jr. Abstract Rotational velocities are presented for 21 galaxies in four large spiral-rich clusters: Cancer, Hercules, Peg I, and DC 1842-63. Although the global properties (luminosity, radius, maximum rotation velocity, and mass) of the cluster sample are similar to those of the field spirals, differences are found. The larger, brighter, more massive spirals which are rare in the field are absent in the cluster spirals studied here. Most galaxies of normal morphology have rotation curves of normal form; most galaxies of peculiar morphology have peculiar rotation curves, but counterexamples exist. The most common peculiarities are falling rotation curves. For all (nine) Sa and Sb galaxies, the amplitudes of the rotation curves are lower than those of their field counterparts. Diminished internal extinction in cluster galaxies is one possible explanation. Galaxies which are H I deficient appear to have rotation curves which are most depressed in comparison with field spirals of equivalent Hubble types and luminosities. Larger overlapping samples of field, cluster, optical, and 21 cm observations are necessary to produce conclusions of higher statistical weight. Publication: The Astrophysical Journal Pub Date: October 1988 DOI: 10.1086/166764 Bibcode: 1988ApJ...333..522R Keywords: Galactic Mass; Galactic Rotation; Galactic Structure; Interstellar Matter; Spiral Galaxies; Virgo Galactic Cluster; Angular Velocity; Dynamic Characteristics; H I Regions; H Ii Regions; Morphology; Astrophysics; GALAXIES: CLUSTERING; GALAXIES: DISTANCES; GALAXIES: INTERNAL MOTIONS; GALAXIES: INTERSTELLAR MATTER; GALAXIES: STRUCTURE full text sources ADS | data products SIMBAD (25) NED (22) Related Materials (1) Part 2: 1988ApJ...333..542W

Powerful warm infrared sources in early-type galaxies

IRAS far-infrared sources have been identified with 129 S0, Sa, Sb, and Sc galaxies in a statistically complete sample of 738 galaxies brighter than 14.5 mag and smaller than 4.0 arcmin. In most cases, the far-IR colors and the ratios of far-IR flux to radio flux density are those of normal galactic disks and/or starbursts. The most powerful far-IR sources in S0 and Sa galaxies are just as powerful as the strongest far-IR sources in Sb and Sc galaxies. Bright-IR sources in S0 and Sa galaxies are warm; those in Sc galaxies are cool. Sb galaxies have both warm and cool IR sources. Bright warm IR sources occur much more frequently in barred galaxies than in galaxies without bars for types S0, Sa, and Sb. Bright, cool IR sources are found with increasing frequency along the Hubble sequence, regardless of the presence or absence of a bar. At least some 'S0' galaxies with warm, bright IR sources have peculiar morphologies and ambiguous classifications.

The kinematic effects on the rotation curve

In this paper, it is pointed out that if the spiral galaxies as a whole revolve about some common centre, the rotation curve will be changed by the kinematic effects. The common centre could be the centre of a supercluster or the centre of dark matter and luminous matter.The kinematic effects on the rotation curve are calculated. The additional velocity caused by revolution about the common centre is obtained. The 44 rotation curves of Sb and Sc galaxies are expressed by means of a linear least squares fit, from which the period of velolution and the ratio of tidal force to self-gravitating force are estimated for every galaxy in extreme cases. Finally, the measurement on two dimensional rotation curve is suggested to pick out the kinematic effects of revolving.

Multicolor optical imaging of powerful far-infrared galaxies - More evidence for a link between galaxy mergers and far-infrared emission

Broadband optical (B and R) imaging results are presented for a sample of 39 powerful far-infrared galaxies detected by IRAS. These objects, which typically have L<SUB>IR</SUB> ≡ 10<SUP>11</SUP>L_sun; - 10<SUP>12</SUP>L_sun; and L<SUB>IR</SUB>/L<SUB>B</SUB> ≡ 10 - 100, were chosen to exhibit far-IR spectra similar in shape to the prototypical very luminous infrared galaxies Arp 220 and NGC 6240, and to be faint optically (in apparent magnitude). The imaging program has revealed that: (1) At least 70% of the galaxies have very distorted optical morphologies. (2) There is an unusually low occurrence of apparently flattened members. (3) The galaxies are moderately luminous in the optical. (4) The galaxy colors most closely resemble Sb or Sbc galaxies seen at the appropriate redshift. These results demonstrate that the optical properties of NGC 6240 and Arp 220 are typical of powerful far-infrared galaxies, and add to the impressive body of evidence linking the collision/merger of disk galaxies to the production of intense infrared emission.

Detection of retrograde gas streaming in the SB0 galaxy NGC 4546

Spectroscopic observations are reported of the almost edge-on SB0 galaxy NGC 4546 which reveal a striking discordance between the derived emission and absorption-line velocities. The gas clouds show velocities that are similar in amplitude but opposite in direction from the stars. This discordance is seen in observations obtained through slits oriented in a wide range of position angles. NGC 4546 is thus, at present, unique as a disk system exhibiting large-scale retrograde motions relative to the stellar component. Orbits elongated both along the bar major axis (prograde, stars) and along the bar intermediate axis (retrograde, gas) are found. The possibility that this material originated from an infall is discussed.

The pattern speed in the SB0 galaxy NGC 936

view Abstract Citations (69) References (8) Co-Reads Similar Papers Volume Content Graphics Metrics Export Citation NASA/ADS The Pattern Speed in the SB0 Galaxy NGC 936 Kent, Stephen M. Abstract The pattern speed Ωp of the bar in NGC 936 is derived for the first time using a method outlined by Tremaine and Weinberg that depends only on the kinematics of the bar. Luminosity and radial-velocity profiles have been measured for four slices parallel to but offset from the apparent major axis of the disk. These are used to derive an apparent pattern speed Ωp sin i = 5.5±1.9 km s-1arcsec-1, which corresponds to Ωp = 104 km s-1kpc-1 in the plane of the disk (D = 16.6 Mpc, i = 41°). Using the rotation curve measured by Kormendy, the corotation radius lies between 28arcsec and 63arcsec. For comparison, the bar length is 52arcsec. The systematic errors affecting Ωp are discussed in detail. Publication: The Astronomical Journal Pub Date: May 1987 DOI: 10.1086/114390 Bibcode: 1987AJ.....93.1062K Keywords: Barred Galaxies; Celestial Mechanics; Galactic Rotation; Angular Velocity; Astronomical Photometry; Astronomical Spectroscopy; Radial Velocity; Velocity Distribution; Astrophysics; GALAXIES: GENERAL full text sources ADS | data products SIMBAD (1) NED (1)

Molecular Clouds in External Galaxies and the Efficiency of Star Formation

Observations of the molecular cloud distributions in spiral galaxies are reviewed. For the luminous, relatively face-on Sc galaxies, the azimuthally averaged CO distributions are centrally peaked, with H2surface densities which decrease as a function of radius. For the Sb and Sa galaxies, the CO distributions exhibit central CO holes up to 5 kpc across in a significant fraction of the galaxies studied. In galaxies with this CO morphology, the central hole is coincident with the nuclear bulge of the galaxy. Additionally, the radial distributions of CO and13CO emission are similar in 10 Sb and Sc galaxies.

The Nature of Liners

LINER's (Low-Ionization Nuclear Emission-line Regions) are found in the majority of early-type (Sb or earlier) galaxies, and in some late-type and peculiar galaxies as well. Because they are so common but are not energized by normal stars, their nature is critical to our understanding of both the active galactic nucleus phenomenon and the evolution of normal galactic nuclei. After briefly reviewing the spectroscopic basis of the LINER classification, I summarize four alternative models for LINER's: 1) LINER's as “mini-Seyferts” in which the emission-line gas is photoionized by a more dilute version of the high-energy nonstellar continuum found in Seyfert nuclei. 2) LINER's as accretion flows of cooling gas originating in the halos of galaxies and/or in the intra-cluster medium. 3) LINER's as starburst-driven winds. 4) LINER's as colliding, shock-heated galaxies. After reviewing the evidence, I conclude that it is very likely that several (and possibly all) of the above models are needed to account for the diverse properties of LINER's. While LINER's would then not have a single unified explanation, they would have a direct bearing on many issues in extragalactic astronomy.