Very interesting. I have been interested in this galaxy since I read about it in Burnham's Celestial Handbook. That was a while ago.
This galaxy has a relatively large, smooth envelope completely dominated by the dime-a-dozen bright stars of the universe, the humdrum red giants. The non-Betelgeuse red giants, the kind of red giants that the Sun will become one day in the future. The red giants that evolve out of non-remarkable main sequence stars. The stars in this outer envelope of NGC 5253 could well be billions of years old. But the central part of the galaxy is brimming with hot bright young blue stars, probably a few tens of millions years at most.
It's fun to look at one of the high-resolution versions of this picture at the
www.spacetelescope.org homepage. The red giants suddenly become so obvious and numerous. But the thumbnail versions of this picture make the galaxy look all blue.
The B-V index of this galaxy is +0.430. That's blue for a galaxy, and it's almost exactly the same color as well-known F-type star Procyon, whose B-V index is +0.432.
The caption that accompanies the new Hubble image of NGC 5253 wrote:
NGC 5253 does contain some dust and heavier elements, but significantly less than the Milky Way galaxy.
Well, there is not all that much dust in NGC 5253, but the galaxy isn't dust-free. The galaxy is brighter in the far infrared, which traces dust, than in blue light, which traces starlight. It is typical for starforming galaxies to be relatively bright in the far infrared. In the case of NGC 5253, its B magnitude is about 10.7 while its far infrared magnitude is 9.6. So it is about a magnitude brighter in the far infrared than in blue light. This is also typical of starforming galaxies.
A galaxy that is slightly similar to NGC 5253 is
NGC 3077, which belongs to the M81/M82 group. Like NGC 5253 it has a red envelope surrounding an active, starforming center. But the red envelope of NGC 3077 is bigger and brighter than the red envelope of NGC 5253, and the overall luminosity of NGC 3077 is higher than the total luminosity of NGC 5253, too. Fascinatingly, even though NGC 3077 looks dustier than NGC 5253 to me, NGC 3077 is comparatively more modest in the far infrared than NGC 5253. NGC 3077 is "only" about half a magnitude brighter in the far infrared than in blue light. Well, assuming my software can be trusted, of course.
Another galaxy that should also be compared with NGC 5253 is
M82. Like NGC 5253 and NGC 3077 M82 has a disk without any visible star formation, but its center is brimming with hot young stars. The overall color of M82 is rather red, +0.89, but an important reason for that is that the brilliant young blue stars of M82 are hidden by dust. M82 is dusty indeed: its far infrared magnitude, 5.6, is about three and a half magnitudes brighter than its B magnitude, which is about 9.2! It's true that in the present-day universe, dust is (or can be) a fountain of youth and a wellspring of star formation!
Ann
Very interesting. I have been interested in this galaxy since I read about it in Burnham's Celestial Handbook. That was a while ago.
This galaxy has a relatively large, smooth envelope completely dominated by the dime-a-dozen bright stars of the universe, the humdrum red giants. The non-Betelgeuse red giants, the kind of red giants that the Sun will become one day in the future. The red giants that evolve out of non-remarkable main sequence stars. The stars in this outer envelope of NGC 5253 could well be billions of years old. But the central part of the galaxy is brimming with hot bright young blue stars, probably a few tens of millions years at most.
It's fun to look at one of the high-resolution versions of this picture at the [url=http://www.spacetelescope.org/images/potw1248a/]www.spacetelescope.org[/url] homepage. The red giants suddenly become so obvious and numerous. But the thumbnail versions of this picture make the galaxy look all blue.
The B-V index of this galaxy is +0.430. That's blue for a galaxy, and it's almost exactly the same color as well-known F-type star Procyon, whose B-V index is +0.432.
The caption that accompanies the new Hubble image of NGC 5253 wrote:
[quote]NGC 5253 does contain some dust and heavier elements, but significantly less than the Milky Way galaxy.[/quote]
Well, there is not all that much dust in NGC 5253, but the galaxy isn't dust-free. The galaxy is brighter in the far infrared, which traces dust, than in blue light, which traces starlight. It is typical for starforming galaxies to be relatively bright in the far infrared. In the case of NGC 5253, its B magnitude is about 10.7 while its far infrared magnitude is 9.6. So it is about a magnitude brighter in the far infrared than in blue light. This is also typical of starforming galaxies.
A galaxy that is slightly similar to NGC 5253 is [url=http://www.spacetelescope.org/static/archives/images/screen/heic0819d.jpg]NGC 3077[/url], which belongs to the M81/M82 group. Like NGC 5253 it has a red envelope surrounding an active, starforming center. But the red envelope of NGC 3077 is bigger and brighter than the red envelope of NGC 5253, and the overall luminosity of NGC 3077 is higher than the total luminosity of NGC 5253, too. Fascinatingly, even though NGC 3077 looks dustier than NGC 5253 to me, NGC 3077 is comparatively more modest in the far infrared than NGC 5253. NGC 3077 is "only" about half a magnitude brighter in the far infrared than in blue light. Well, assuming my software can be trusted, of course.
Another galaxy that should also be compared with NGC 5253 is [url=http://messier.seds.org/Pics/Jpg/m82hb.jpg]M82[/url]. Like NGC 5253 and NGC 3077 M82 has a disk without any visible star formation, but its center is brimming with hot young stars. The overall color of M82 is rather red, +0.89, but an important reason for that is that the brilliant young blue stars of M82 are hidden by dust. M82 is dusty indeed: its far infrared magnitude, 5.6, is about three and a half magnitudes brighter than its B magnitude, which is about 9.2! It's true that in the present-day universe, dust is (or can be) a fountain of youth and a wellspring of star formation!
Ann