Information on Service 'MC Exinctions by Positions'
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A catalogue of E(V-I) extinction values is presented for 3174 (LMC)
and 693 (SMC) fields within the Magellanic Clouds. The extinction
values were computed by determining the (V-I) colour difference of the
red clump from Optical Gravitational Microlensing Experiment (OGLE
III) observations in the V and I bands and theoretical values for
unreddend red clump colours.
For a list of all services and tables belonging to this service's
resource, see Information on resource 'Reddening and Extinction maps of the Magellanic Clouds'
Service Documentation
The Optical Gravitational Microlensing Experiment (OGLE III) has monitored
both Magellanic Clouds in the V and I band. Using the public stellar
photometry database of OGLE III in order to derive spatially resolved
reddening maps, we subdivide the OGLE III observations of the Large
Magellanic Cloud (LMC) in 3174 subfields. The size of the fields varies from
4.5 x 4.5 square arcmin to 36 x 36 square arcmin in order to ensure that each
field contains at least 300 stars and no more than 4800 stars. I.e., in dense
regions our reddening resolution is higher.
In each of these subfields the mean (V-I) colour of the red clump is
determined. A theoretical colour of (V-I):sub:0 = 0.92 mag is adopted for the LMC
and subtracted from the measured value. The difference is defined as
reddening E(V-I). To provide you directly useable data we calculated the
reddening for different filters by adopting Schlegels list of conversion
factors (Table 6 in Schlegel et al. 1998, AJ, 500, 525). To use this table
the extinction has to be recalculated from E(B-V) to E(V-I). For this purpose
we adopted E(V-I) = 1.38 × E(B-V)
(Tammann et al. 2003, A&A, 404, 423).
For the Small Magellanic Cloud (SMC) the same procedure is used. The OGLE III
data are subdivided into 693 contiguous subfields. The reddening of each
subfield is determined adopting a theoretical colour of
(V-I)0 = 0.89 mag.
The following table (containing values taken from
1998ApJ...500..525S)
shows the laws adopted to compute extinction values in
the various bands:
| Filter |
name |
λeff |
A/A(V) |
A/E(B-V) |
A/E(V-I) |
|---|
| Landolt |
U |
3372 |
1.66 |
5.43 |
3.94 |
| Landolt |
B |
4404 |
1.32 |
4.32 |
3.13 |
| Landolt |
V |
5428 |
1.02 |
3.32 |
2.4 |
| Landolt |
R |
6509 |
0.82 |
2.67 |
1.94 |
| Landolt |
I |
8090 |
0.59 |
1.94 |
1.41 |
| Gunn |
g |
5244 |
1.07 |
3.48 |
2.52 |
| Gunn |
r |
6707 |
0.79 |
2.59 |
1.88 |
| Gunn |
i |
7985 |
0.61 |
1.99 |
1.44 |
| Gunn |
z |
9055 |
0.47 |
1.54 |
1.12 |
| Stromgren |
u |
3502 |
1.6 |
5.23 |
3.79 |
| Stromgren |
b |
4676 |
1.24 |
4.05 |
2.93 |
| Stromgren |
v |
4127 |
1.39 |
4.55 |
3.3 |
| Stromgren |
beta |
4861 |
1.18 |
3.86 |
2.8 |
| Stromgren |
y |
5479 |
1 |
3.28 |
2.37 |
| Sloan |
u' |
3546 |
1.58 |
5.16 |
3.74 |
| Sloan |
g' |
4925 |
1.16 |
3.79 |
2.75 |
| Sloan |
r' |
6335 |
0.84 |
2.75 |
1.99 |
| Sloan |
i' |
7799 |
0.64 |
2.09 |
1.51 |
| Sloan |
z' |
9294 |
0.45 |
1.48 |
1.07 |
Crossmatching with your tables
If you want to add extinctions to your own tables, use TAP. Our TAP
server has the ivo-id ivo://org.gavo.dc/__system__/tap/run. You will need
a TAP client to do this. Recent versions of
TOPCAT, for example, allow you
use TAP. To add a column with the reddening, load the table into TOPCAT
and note its id (that's the number in front of the colon in the Table List in
TOPCAT's main window; if you've just started TOPCAT, that's 1).
Then, select TAP from the TOPCAT's VO menu, at the bottom ("TAP URL") enter
http://dc.g-vo.org/tap and click "Enter Query".
In the resulting dialog, enter:
SELECT ev_i, mine.* FROM
mcextinct.exts AS exts
JOIN tap_upload.t1 AS mine
ON (1=CONTAINS(POINT('ICRS', mine.raj2000, mine.dej2000),exts.bbox))
If your table has id 15, say, change tap_upload.t1 to
tap_upload.t15. You will also need to fix the column names for RA
and Dec (written as raj2000 and dej2000 here).
To compute extinctions in specific bands, use the factors given in the A/E(V-I)
column in the table above above. To, e.g., add the extinctions in Sloan u' and
Sloan z', say:
SELECT ev_i*3.74 as A_sloan_u, ev_i*1.07 as A_sloan_z, mine.* FROM
mcextinct.exts AS exts
JOIN tap_upload.t1 AS mine
ON (1=CONTAINS(POINT('ICRS', mine.raj2000, mine.dej2000),exts.bbox))
For batch processing, similar operations can be done with
STILTS or GAVO's
tapsh. For the latter,
you could use a shell script like the following to add an ev_i column
to the file named in the first command line argument argument
(note the backup); again, you'll need to fix the column names for RA and Dec:
#!/bin/sh
cp $1 $1.bak
tapsh <<EOF
server ivo://org.gavo.dc/__system__/tap/run
SELECT ev_i, mine.* FROM mcextinct.exts AS exts JOIN tap_upload.mytable AS mine ON (1=CONTAINS(POINT('ICRS', mine.raj2000, mine.dej2000),exts.bbox))
upload "$1" as mytable
run
save "$1"
EOF
Overview
You can access this service using:
-
form --
an interface for web browsers through an HTML form
Coverage
1.23956 3.75739 eV
This resource is not (directly) published.
This can mean that it was deemed too unimportant, for internal
use only, or is just a helper for a published service.
Equally likely, however,
it is under development, abandoned in development or otherwise
unfinished. Exercise some caution.
Other services provided on the underlying data
include:
Default Output Fields
The following fields are contained in the output by default. More
fields may be available for selection; these would be given below
in the VOTable output fields.
| Name | Table Head |
Description | Unit | UCD |
|---|
| dec |
Dec |
Uploaded Dec
|
deg |
pos.eq.dec;meta.main |
| ev_i |
E(V-I) |
Reddening (color difference between observation and theory, V-I)
|
mag |
phot.color.excess;em.opt.V;em.opt.I |
| ra |
RA |
Uploaded RA
|
deg |
pos.eq.ra;meta.main |
VOTable Output Fields
The following fields are available in VOTable output. The verbosity
level is a number intended to represent the relative importance
of the field on a scale of 1 to 30. The services take a VERB argument.
A field is included in the output if their verbosity level is
less or equal VERB*10.
| Name | Table Head |
Description | Unit | UCD |
Verb. Level |
|---|
| ev_i |
E(V-I) |
Reddening (color difference between observation and theory, V-I)
|
mag |
phot.color.excess;em.opt.V;em.opt.I |
1 |
| ra |
RA |
Uploaded RA
|
deg |
pos.eq.ra;meta.main |
20 |
| dec |
Dec |
Uploaded Dec
|
deg |
pos.eq.dec;meta.main |
20 |
Copyright, License, Acknowledgements
If you use this data, please cite
Haschke, R., Grebel, E., Duffau, S., 2011: "New Optical Reddening
Maps of the Large and Small Magellanic Clouds", AJ 141, 158,
2011AJ....141..158H
The photometric data of the red clump is provided by the OGLE collaboration.
Part of this research was supported by SFB 881 "The Milky Way System".
Citation Info
VOResource XML (that's something exclusively for VO nerds)
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