Multiwavelength Atlas of Galaxies

The Multiwavelength Atlas of Galaxies is a textbook and atlas of 35 well studied galaxies (including our Galaxy) authored by Glen Mackie of the Centre for Astrophysics & Supercomputing, Swinburne University of Technology. It was originally published in 2011 by Cambridge University Press.[1]

Optical image of NGC 5194/M 51. Obtained by HST/ACS/WFC in F435W, F555W, F658N, F814W.

Atlas scope

The purpose of the atlas is to display and describe some of the best multiwavelength images of galaxies. The images originate from a variety of telescopes, instruments and detectors, and therefore possess wide ranges of signal-to-noise, angular resolution, sampling or pixel sizes and fields of view. The atlas is a compendium of galaxy images spanning the Gamma ray, X-ray, Ultraviolet, Optical, Infrared, Submillimeter and Radio regions of the electromagnetic spectrum.

The atlas has been favourably reviewed in the Royal Astronomical Society journal, Astronomy & Geophysics.[2] Creating the atlas was a long term project ten years in the making.[3] Background on the genesis of the atlas can be found in an interview with the author in the Swinburne University of Technology Venture magazine.[4] It is recommended for graduate students and above.[5]

Centaurus A (NGC 5128 in the table below; Centaurus A is the radio source) is a nearby galaxy that contains a supermassive black hole actively powering a jet. A prominent X-ray jet extending for 13,000 light years points to the upper left in the image, with a shorter "counterjet" aimed in the opposite direction. In this image, low-energy X-rays are colored red, intermediate-energy X-rays are green, and the highest-energy X-rays detected by Chandra are blue. The dark green and blue bands running almost perpendicular to the jet are dust lanes that absorb X-rays.

Explanatory text describes how different radiation is produced, which objects (i.e. cold, warm or hot gas, dust, stars, particles, atoms and molecules) it originates from, and what types of telescopes are used to detect it. The galaxies are divided into categories of Normal (N), Interacting (I), Merging (M), Starburst (S) and Active (A), though many have been classified across one or more categories. The reasons for inclusion of a galaxy into a specific category is explained in the individual galaxy summaries in the Atlas.

Galaxy types

Normal galaxies include galaxies that appear morphologically normal, do not possess unusual star formation rates, and have continuum spectra with a thermal (stellar) form characterized by one or more temperatures. Twelve N classified galaxies are in the Atlas.

Interacting galaxies display morphological signatures of a gravitational interaction with another nearby galaxy or are influenced by the passage through a dense medium that can 'strip out' constituent gas. Four I classified galaxies are in the Atlas.

Merging galaxies are the later evolutionary stages of two or more Interacting galaxies that have orbits and dynamics conducive to a final merger. Five M classified galaxies are in the Atlas.

Starburst galaxies undergo intense star formation that is well in excess of normal rates. Large numbers of young stars (O and B spectral type) exist and the dust content can be extremely high. Three S classified galaxies are in the Atlas.

Active galaxies have Active Galactic Nuclei (AGN) and include LINER, Seyfert, Radio Galaxy, Quasar and Blazar types. 'Activity' refers to non-stellar processes occurring or originating in a galaxy nucleus. An active nucleus has a spectrum with a continuum that cannot be explained by radiation from one or more stellar (or blackbody) objects. Eleven A classified galaxies are in the Atlas. Active galaxies typically have strong emission over a large portion of the electromagnetic spectrum making them prime targets for multiwavelength observations. Hence galaxies categorised Active make up a large fraction (31%) of the Atlas sample, and comprise 43% of the total sample if other Atlas galaxies with activity as a sub-category are included.

The Large Magellanic Cloud as imaged by the NASA Spitzer Space Telescope. The image is a composite of infrared light at wavelengths of 3.6 (blue), 8 (green) and 24 (red) µm.

Radiation from all regions of the electromagnetic spectrum has now been detected from galaxies. These observations have utilized telescopes at ground-based observatories (many located at high altitude mountain sites), telescopes in aircraft (≥10 km altitude), detectors on balloons that voyaged to the upper atmosphere (30–40 km altitude), instrument payloads on rockets that reached space, observatory satellites in Earth and Solar orbit as well as instruments aboard planetary missions journeying through the Solar System.

List of galaxies in the Multiwavelength Atlas of Galaxies

Category/GalaxyGroup/ClusterR.A. (1950)Dec. (1950)Typev0 (km s−1)Dist. (Mpc)Other cat.
Normal
The GalaxyLG17 42 29-28 59 18[Sbc/SBbc]8.5E-3I, A?
NGC 224/M 31LG00 40 0040 59 42SbI-II-100.7
SMCLG00 50 53-73 04 18ImIV-V-190.07I
NGC 300Sth. Polar00 52 31-37 57 24ScII.81281.2
NGC 598/M 33LG01 31 0330 23 54Sc(s)II-III690.7
NGC 891NGC 1023 Grp.02 19 2542 07 12Sb on edge7799.6
NGC 1399Fornax Cl.03 36 35-35 36 42E1137516.9
LMCLG05 24 00-69 48SBmIII340.05I
NGC 291509 26 31-76 24 30[BCD]4683.3
Malin 210 37 1021 06 29[LSB]13820141
NGC 5457/M101M 101 Grp.14 01 2854 35 36Sc(s)I3725.4I?
NGC 6822LG19 42 07-14 55 42ImIV-V150.7
Interacting
NGC 4406/M 86Virgo Cl.12 23 4013 13 24S01(3)/E3-36716.8
NGC 4472/M 49Virgo Cl.12 27 1708 16 42E1/S01(1)82216.8
NGC 467612 43 4431 00 12[0.022]87.0
NGC 5194/M 5113 27 4647 27 18Sbc(s)I-II5417.7A
Merging
NGC 52001 22 0003 31 54Amorphous235027.8
NGC 1275Pers. Cl./Abell 42603 16 3041 19 48E pec543372.4A
NGC 1316Fornax Cl.03 20 47-37 23 06Sa pec (merger?)171316.9A
NGC 4038/911 59 19-18 35 06Sc pec139125.5
NGC 725222 17 58-24 55 54merger475963.5
Starburst
NGC 253Sth. Polar Grp.00 45 08-25 33 42Sc(s)2933.0
NGC 3034/M 82M 81 Grp.09 51 4169 54 54Amorphous4095.2I
NGC 5236/M 8313 34 10-29 36 48SBc(s)II2754.7I?
Active
NGC 1068/M 7702 40 07-00 13 30Sb(rs)II123414.4
NGC 1365Fornax Cl.03 31 42-36 18 18SBb(s)I156216.9
NGC 3031/M 81M 81 Grp.09 51 3069 18 18Sb(r)I-II1241.4I
NGC 4258/M 10612 16 2947 35 00Sb(s)II5206.8
3C 27312 26 3302 19 43[0.16]589.0
NGC 4486/M 87Virgo Cl.12 28 1712 40 06E0113616.8
NGC 4594/M 10412 37 23-11 21 00Sa+/Sb87320.0
NGC 5128N5128 Grp.13 22 32-42 45 30S0+S pec2514.9I
A1795#1Abell 179513 46 3426 50 25[0.063]243.9I
Arp 22015 32 4723 40 08[0.018]71.3S, M
Cygnus A19 57 4440 35 46[0.057]221.4

Notes to Table:

Group/Cluster: LG: Local Group; Sth. Polar Grp.: South Polar Group, also known as the Sculptor Group; Pers. Cl.: Perseus Cluster.

Right Ascension and Declination: From a Revised Shapley-Ames Catalog of Bright Galaxies (RSA; Sandage and Tammann 1981), when available, or else from the SIMBAD[6] astronomical database except for the Galaxy (coordinates of Sagittarius A*, from Mezger et al. 1996).

Type: Where possible galaxy types are taken from RSA. This classification scheme is the revised Hubble system (Sandage 1961, 1975). The exceptions, NGC 2915 (Blue Compact Dwarf, BCD, Meurer, Mackie and Carignan 1994); the Galaxy (Sbc/SBbc, de Vaucouleurs 1970); Malin 2 (Low Surface Brightness, LSB, McGaugh and Bothun 1994) are indicated with types given in [ ].

v0: The corrected recession velocity relative to the Local Group centroid, in km s−1 from RSA. Redshifts (z) are given in [ ] when v0 is not listed in RSA. Velocities for NGC 2915 and Malin 2 are from the NASA/IPAC Extragalactic Database (NED)[7] and are heliocentric.

Distance: In Mpc from Tully (1988), except for the Galaxy (Mezger et al. 1996); LMC (50 kpc. Note: Panagia et al. 1991; distance to SN 1987A, D(1987A) = 51.2±3.1 kpc); SMC (Rowan-Robinson 1985); Malin 2 (McGaugh and Bothun 1994); NGC 1275 and NGC 7252 (where D = v0/75.0 Mpc); and NGC 4676, 3C 273, A1795#1, Arp 220, Cygnus A (where D = v/75.0 Mpc, and v = c [(z+1)2 - 1]/[(z+1)2 + 1]

Other Categories: N - Normal, I - Interacting, M - Merging, S - Starburst, A - Active.

References for Table:

McGaugh, S.S., and Bothun, G.D. 1994, A. J., 107, 530. Mezger, P.G., Duschl, W.J. and Zylka, R. 1996, Astron. Ap. Review, 7, 289. Panagia, N. et al. 1991, Ap. J., 380, L23. Rowan-Robinson, M. 1985, 'The Cosmological Distance Ladder', (New York: Freeman). p. 153. Sandage, A. and Tammann, G. A. 1981, A Revised Shapley-Ames Catalog of Bright Galaxies, (Carnegie Institute of Washington, Washington, D.C.) (RSA) Tully, R.B. 1988, Nearby Galaxies Catalog, (Cambridge University Press, Cambridge).

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See also

References

  1. Mackie, Glen. The Multiwavelength Atlas of Galaxies, Cambridge University Press, Cambridge, UK. Retrieved on 27 February 2013
  2. Astronomy & Geophysics (2011), 52(2): 2.37 A multiwavelength look at the universe, Oxford University Press, Oxford, UK. Retrieved on 11 April 2013.
  3. Daily Telegraph Retrieved on 21 April 2013
  4. Cribb, J. Venture, March, 2011 A bestiary of galaxies, Swinburne University of Technology. Retrieved on 11 April 2013.
  5. Villanova University, Falvey Memorial Library Reviews: Multiwavelength atlas of galaxies, Villanova University, USA. Retrieved on 11 April 2013.
  6. SIMBAD. "SIMBAD Astronomical Database", CDS, Strasbourg, France. Retrieved on 27 February 2013.
  7. NED. "NASA/IPAC Extragalactic Database (NED)", Jet Propulsion Laboratory, California Institute of Technology, under contract with the National Aeronautics and Space Administration. Retrieved on 27 February 2013.
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