by Ann » Wed Dec 05, 2012 4:06 pm
Thanks for the link, bystander.
Phil Plait wrote:
I checked the paper, but I didn't find any B-V information about ESO-318-13.
Phil Plait wrote:
For a moment I was thrown by the stars being all blue, since only hot, young, massive stars are that color.
Exactly - I, too, think that pictures of galaxies and globulars imaged through an orange and an infrared filter and being shown as predominantly blue are really confusing.
Phil Plait wrote:
The astronomers used two filters to make this picture, one that lets through only orange/red light (shown as blue), and another that lets through only infrared light (shown as red). Those two colors are useful when you’re looking at stars
I disagree. I agree that these two filters are very useful when you look at distant galaxies that are considerably redshifted. For moderately nearby objects, however, such as ESO-318-13, a blue and a red filter would do a much better job of distinguishing between hot and cool stars.
Phil Plait wrote:
So this looks to be an ordinary dwarf galaxy, fairly flat, and otherwise unremarkable except for its beauty.
Its flatness is interesting. That suggests to me that this is a disk galaxy rather than a "blob galaxy". Many small galaxies are indeed blob-shaped. A few examples are the
Sagittarius Dwarf Galaxy,
IC 1613 (picture by Brian Lula),
Sextans A and
Sextans B. All these galaxies are classified as dwarf irregulars, and all experience some star formation. But there are also dwarf galaxies with no star formation which are typically blob-shaped, such as the
Leo Dwarf, UGC 5470.
I find it interesting that ESO 318-13 is "diskier" than the small galaxies I've just linked to. So, does ESO 318-13 contain any star formation? Yes, I think it does. There are a few small blue-looking clumps of stars in the left part of the galaxy that definitely look like clusters. This suggests that ESO 318-13 might be slightly similar to a galaxy like, say, Sextans B.
I searched for a disk-shaped galaxy that might be comparable to ESO 318-13, but I found none. One galaxy I checked up is
NGC 4144. But even though NGC 4144 is likely a smallish galaxy, you can see how different it is from ESO 318-13. The inner part of NGC 4144 is quite bright, and you can't pick out individual stars there. The stars in the inner part appears to be clearly redder in color than the stars in the outer disk. There are several blue clusters in the outer disk, and you can detect a thin and broken dust lane in the galaxy. ESO 318-13, by contrast, has a very low surface brightness and no central concentration of stars, and there is certainly no dust lane.
Fascinating. I still think the stellar content of "the glitter galaxy" is slightly similar to that of Sextans B, although ESO 318-13 has fewer young clusters.
Ann
Thanks for the link, bystander.
Phil Plait wrote:
[quote] I searched through the professional journals and found only [url=http://iopscience.iop.org/1538-3881/127/4/2031/pdf/1538-3881_127_4_2031.pdf]one paper about it[/url][/quote]
I checked the paper, but I didn't find any B-V information about ESO-318-13.
Phil Plait wrote:
[quote]For a moment I was thrown by the stars being all blue, since only hot, young, massive stars are that color.[/quote]
Exactly - I, too, think that pictures of galaxies and globulars imaged through an orange and an infrared filter and being shown as predominantly blue are really confusing.
Phil Plait wrote:
[quote]The astronomers used two filters to make this picture, one that lets through only orange/red light (shown as blue), and another that lets through only infrared light (shown as red). Those two colors are useful when you’re looking at stars[/quote]
I disagree. I agree that these two filters are very useful when you look at distant galaxies that are considerably redshifted. For moderately nearby objects, however, such as ESO-318-13, a blue and a red filter would do a much better job of distinguishing between hot and cool stars.
Phil Plait wrote:
[quote]So this looks to be an ordinary dwarf galaxy, fairly flat, and otherwise unremarkable except for its beauty.[/quote]
Its flatness is interesting. That suggests to me that this is a disk galaxy rather than a "blob galaxy". Many small galaxies are indeed blob-shaped. A few examples are the [url=http://heritage.stsci.edu/2004/31/index.html]Sagittarius Dwarf Galaxy[/url], [url=http://www.heavensgloryobservatory.com/Color_Jpegs/ic1613LRGB06.jpg]IC 1613[/url] (picture by Brian Lula), [url=http://subarutelescope.org/Pressrelease/2004/02/23/SextansA_300.jpg]Sextans A[/url] and [url=http://upload.wikimedia.org/wikipedia/commons/thumb/9/9a/Sextans_B_Hubble_WikiSky.jpg/1024px-Sextans_B_Hubble_WikiSky.jpg]Sextans B[/url]. All these galaxies are classified as dwarf irregulars, and all experience some star formation. But there are also dwarf galaxies with no star formation which are typically blob-shaped, such as the [url=http://www.aao.gov.au/images/624x832_caption/aat051_72c.jpg]Leo Dwarf, UGC 5470[/url].
I find it interesting that ESO 318-13 is "diskier" than the small galaxies I've just linked to. So, does ESO 318-13 contain any star formation? Yes, I think it does. There are a few small blue-looking clumps of stars in the left part of the galaxy that definitely look like clusters. This suggests that ESO 318-13 might be slightly similar to a galaxy like, say, Sextans B.
I searched for a disk-shaped galaxy that might be comparable to ESO 318-13, but I found none. One galaxy I checked up is [url=http://upload.wikimedia.org/wikipedia/commons/thumb/0/01/NGC_4144_Hubble_WikiSky.jpg/1024px-NGC_4144_Hubble_WikiSky.jpg]NGC 4144[/url]. But even though NGC 4144 is likely a smallish galaxy, you can see how different it is from ESO 318-13. The inner part of NGC 4144 is quite bright, and you can't pick out individual stars there. The stars in the inner part appears to be clearly redder in color than the stars in the outer disk. There are several blue clusters in the outer disk, and you can detect a thin and broken dust lane in the galaxy. ESO 318-13, by contrast, has a very low surface brightness and no central concentration of stars, and there is certainly no dust lane.
Fascinating. I still think the stellar content of "the glitter galaxy" is slightly similar to that of Sextans B, although ESO 318-13 has fewer young clusters.
Ann