Object Name: Messier 91
Alternative Designations: M91, NGC 4548
Object Type: Type SBb Barred Spiral Galaxy
Constellation: Coma Berenices
Right Ascension: 12 : 35.4 (h:m)
Declination: +14 : 30 (deg:m)
Distance: 60000 (kly)
Visual Brightness: 10.2 (mag)
Apparent Dimension: 5.4×4.4 (arc min)
Locating Messier 91: Begin with the base M84/M86 pairing located almost exactly mid-way between Beta Leonis (Denebola) and Epsilon Virginis (Vindemiatrix). The above map shows quite some distance between the galaxies, but by running a “grid” pattern, you can starhop the Virgo galaxy field with ease. Once you have M84/M86 in sight, move one low power eyepiece field east and hop north less than and eyepiece field for M87. Now you understand how Charles Messier ran his sky patterns! Continue north for 1 or two eyepiece fields and then shift east by one. This should bring you to M88. Now shift one more field east and drop south between 1 to 2 fields for M89. Your next hop is also an eyepiece field east and then 1 north for M90. In the eyepiece, M90 will appear as a very faint round haze, that’s very even in appearance. Now hop one field up for M91! This low surface brightness galaxy won’t be easy in a small scope, and chances are what you’ll really see is its strong central bar. However, unleash a large telescope its way on a good, clear, dark night and you’ll be impressed!
What You Are Looking At: While M91 looks great in photos, this galaxy isn’t the easiest to see because on the central bar region is still rich in stars. So what’s left on the outside to look at? Try gas… “We present new HI and CO data including velocity information of NGC 4548, an anaemic galaxy in the Virgo Cluster. The distribution of the atomic gas shows a ring-like structure. The HI rotation curve is deduced and can be extrapolated inwards with the help of the CO data. The derived molecular fraction decreases continuously up to a radius of about 40? showing a rather sharp transition between the molecular and the atomic disc. A three-dimensional visualization of the data cube permits us to detect a perturbation of the velocity field in the northern part of the galaxy.” says B. Vollmer (et al). “In a first approach we reconstruct the possible sites of HI emission with the help of a simple kinematical model in three dimensions. The reconstructed model shows a ridge which is believed to be due to ram-pressure stripping. In addition, we show first results of a dynamical model to simulate the interaction between the intra-cluster medium and the galaxy.”
But M91 is being “just” stripped. Apparently chemical reactions has caused its nuclues to come unglued, too. “Our investigation of the central region in NGC 4548, a bright Sb galaxy with a large-scale bar, using the Multipupil Field Spectrograph of the 6-m telescope revealed a chemically decoupled compact stellar nucleus with [Fe/H]=+0.6 and [Mg/Fe]=+0.1…+0.2 and with a mean stellar-population age of 5 Gyr. This nucleus, a probable circumnuclear disk coplanar with the global galactic disk, is embedded in the bulge whose stars are generally also young, T?4 Gyr, although they are a factor of 2.5 more metal-poor.” says O. K. Sil’chenko of the Sternberg Astronomical Institute. “The bulge of NGC 4548 is triaxial and has a de Vaucouleurs surface-brightness profile; the unusual characteristics of its stellar population suggest the bulge formation or completion in the course of secular evolution in the triaxial potential of the global bar. The ionized gas within 3? of the NGC 4548 nucleus rotates in a plane inclined to the principal symmetry plane of the galaxy, possibly, even in its polar plane, which may also result from the action of the large-scale bar.”
So now that we’ve seen it from almost every angle, how about as a radio source? “The bulge of NGC 4548 is triaxial and has a de Vaucouleurs surface-brightness profile; the unusual characteristics of its stellar population suggest the bulge formation or completion in the course of secular evolution in the triaxial potential of the global bar. The ionized gas within 3? of the NGC 4548 nucleus rotates in a plane inclined to the principal symmetry plane of the galaxy, possibly, even in its polar plane, which may also result from the action of the large-scale bar.” says Aeree Chung (et al). “We confirm that galaxies near the cluster core (d87 ? 0.5 Mpc) have small Hi disks compared to their stellar disks (DHI/D25 History: When Charles Messier discovered 9 deep space objects on the night of March 18, 1781, chances are very good that M91 was what he was decribing when he said: “Nebula without stars, fainter than M90”. However, there was only one problem… Charles made a rare bookkeeping mistake and logging its position wrong. According to SEDS: “or a long time, M91 was a missing Messier object, as Messier had determined its position from M89 while he thought it was from M58, as the Texas amateur William C. Williams of Fort Worth has figured out in 1969 (Williams 1969). Thus, the identity of M91 with NGC 4548, which had been cataloged H II.120 by William Herschel on April 8, 1784, was finally uncovered. Previous opinions have been that M91 had either been a comet which the great comet hunter Messier mistook for a nebula, and Owen Gingerich had suspected that it had been a duplicate observation of M58. William Herschel had not found M91 at Messier’s erroneous position and suspected that it might have been NGC 4571 (his H III.602), a beautiful but faint 11.3 mag barred spiral”
Top M91 image credit, Palomar Observatory courtesy of Caltech, M91 2MASS Image, M91 Colored Negative Image (SEDS), M91 Radio Image (AANDA), and M91 image courtesy of NOAO/AURA/NSF.