chaos syndrome wrote:I don't really have much to contribute to this, but as a suggestion to consider for the .dsc bundled with the Celestia distribution, it would be nice to have as complete a representation as possible of the Local Group, so at least we have a good representation of our galactic neighbourhood.
Not sure how that would fit in with any criteria you choose however.
. E.g. if anybody cares for all those galaxies that are seen "edge-on" among the 10632 of my full catalog, NO problem. Just one Perl statement 
t00fri wrote:It seems that the commercial Adobe Illustrator has the best built-in features for vectorizing images. Unfortunately, I don't have that program. The result as we need it for a template are numerical data in a file e.g. S0.pts, consisting of the 4 columns
Gerbil94 wrote:t00fri wrote:c) Globular Cluster Luminosity Function (GCLF)
d) Planetary Nebula Luminosity Function (PNLF)
e) Photometric Distances
f) Cepheid Distances
Do you have enough information in the catalogue you're using to apply the Tully-Fischer and Fundamental Plane relations to get distance?
t00fri wrote:Certainly not in one single catalog! What I do is to merge several professional, specialized catalogs together, correlate the galaxies and extract the needed distance and other information via PERL.
I did NO data analysis using Tully-Fischer etc myself. I rather took recourse to catalogs that made use of this.
The major /quantitative/ sources of distance come [...]
Gerbil94 wrote:t00fri wrote:Certainly not in one single catalog! What I do is to merge several professional, specialized catalogs together, correlate the galaxies and extract the needed distance and other information via PERL.
Ok, do you have enough information in the catalogues you're using to apply TF and the FP relations?
I did NO data analysis using Tully-Fischer etc myself. I rather took recourse to catalogs that made use of this.
The major /quantitative/ sources of distance come [...]
Sorry, I'm not sure I understand. Why would the distance methods you mention rely on Tully-Fisher or on the fundamental plane?
Also, what is the redshift distribution like for the objects where you were forced to apply your photometric method with fixed M_abs? Are the objects quite nearby, or do they have significant redshifts?
t00fri wrote:The straight answer is NO, since none of catalogs used contains information on the the galactic peak rotation speed (or 21cm line width) in tabulated form. I don't know about specialized respective catalogs containing >10000 - 20000 entries...
The standard catalogs that I use certainly give the /absolute/ magnitudes in various color bands.
I just meant to say that quite a number of the the distances resulting e.g. from Hubble's law or the SBF method were cross-checked via TF in the authors' original work. In the catalog tables, this does not show up, of course.
Again, here it would be good to know what is in your mind behind the question!
My "universal M_abs" method always comes in as a "last resort" in all cases where no other distance information is given in the used catalogs. The data on recession velocities are rather complete at the larger redshift end of the RC3 catalog. Most of the "M_abs" applications refer to v<1000km/sec in the cases where SBF data are lacking.
Anyhow my catalog lists the distance method used in ALL cases in form of a comment, along with further parameters not yet exploited by Celestia.
Gerbil94 wrote:t00fri wrote:The straight answer is NO, since none of catalogs used contains information on the the galactic peak rotation speed (or 21cm line width) in tabulated form. I don't know about specialized respective catalogs containing >10000 - 20000 entries...
Ok, that's unlucky. But you really only need velocity dispersions for the ones that don't have any SBF or Hubble distance measurements. How many of those are there?
Well, as you've shown, there's (very) roughly a 1.5-2 mag spread in absolute magnitudes for particular galaxy types. The TF relation and the FP give you a potential opportunity to account for that scatter to better than a magnitude for those galaxies that are without both SBF and Hubble distances. Using the FP and TF relations instead of assuming a fixed absolute magnitude could substantially reduce the probable error in the distance estimates made photometrically.
Code: Select all
Sample Photometric Method Spectroscopic Method Number Notes
===================================================================
HMCL . . . CCD I-band H I profile widths 428 1
W91CL . . .CCD r-band H I profile widths 156 2
W91PP . . .CCD r-band H I profile widths 326 3
CF . . . . CCD r-band Optical rotation curves 321 4
MAT . . . .CCD I-band H I + optical 1355 5
A82 . Photoel. H-band H I profile widths 359 6
===================================================================
2945
Table1:
elliptical galaxy sample : (Dn- ??) 544
====================================================================
3489
celestia 1.4.0 pre 7 => galaxy color !
selden wrote:What symaski62 is trying to say in his obscure brevity is that Chris' most recent Celestia checkin is still incomplete.
In particular, galaxy rendering under Windows doesn't work when Celestia is built from the current CVS archive. (I deleted all previously compiled libraries just to make sure it was built completely from scratch.)
As of the morning of July 16th, both Galaxies and Nebulas are not drawn. Toggling the menu option Render/View Options/show galaxies does nothing. Typing "u" multiple times does nothing. Typing ( and ) (the new galaxy visual magnitude adjustments) do nothing.
We just have to hope Chris doesn't fall off a cliff while climbing...
symaski62 wrote:http://cvs.sourceforge.net/viewcvs.py/celestia/celestia/?sortby=date#dirlist
t00fri WTF ! galaxy
celestia 1.4.0 pre 6 ?!? => galaxy black .
