VOTable generated from the original AAS Journal Machine Readable
Table
Intrinsically Red Sources observed by Spitzer in the Galactic Mid-
Plane (Robitaille T.P. et al.)
Final red source catalog
GLIMPSE source name
Galactic longtitude (1) These coordinates are set to the average
position of the source at 4.5 and at 8.0 microns. This
position may differ slightly from the `official'
GLIMPSE position in cases where PSF fitting was used to
determine the flux of the source if the position of the source
was adjusted to obtain a better residual.
Galactic latitude (1) These coordinates are set to the average
position of the source at 4.5 and at 8.0 microns. This
position may differ slightly from the `official'
GLIMPSE position in cases where PSF fitting was used to
determine the flux of the source if the position of the source
was adjusted to obtain a better residual.
Right Ascension in decimal degrees (J2000) (1) These coordinates
are set to the average position of the source at 4.5
and at 8.0 microns. This position may differ slightly from the
`official' GLIMPSE position in cases where PSF fitting was used
to determine the flux of the source if the position of
the source was adjusted to obtain a better residual.
Declination in decimal degrees (J2000) (1) These coordinates are
set to the average position of the source at 4.5 and
at 8.0 microns. This position may differ slightly from the
`official' GLIMPSE position in cases where PSF fitting was used
to determine the flux of the source if the position of
the source was adjusted to obtain a better residual.
? 2MASS J band magnitude (2) The zero-magnitude fluxes assumed
throughout this paper are: F_{nu}_(J) = 1594 Jy,
F_{nu}_(H) = 1024 Jy, F_{nu}_(K_s_) = 666.7 Jy,
F_{nu}_(3.6 microns) = 280.9 Jy, F_{nu}_(4.5 microns) = 179.7 Jy,
F_{nu}_(5.8 microns) = 115.0 Jy, F_{nu}_(8.0 microns) = 64.13 Jy,
F_{nu}_(MSX E) = 8.75 Jy, F_{nu}_(24.0 micron) = 7.14 Jy.
? 2MASS H band magnitude (2) The zero-magnitude fluxes assumed
throughout this paper are: F_{nu}_(J) = 1594 Jy,
F_{nu}_(H) = 1024 Jy, F_{nu}_(K_s_) = 666.7 Jy,
F_{nu}_(3.6 microns) = 280.9 Jy, F_{nu}_(4.5 microns) = 179.7 Jy,
F_{nu}_(5.8 microns) = 115.0 Jy, F_{nu}_(8.0 microns) = 64.13 Jy,
F_{nu}_(MSX E) = 8.75 Jy, F_{nu}_(24.0 micron) = 7.14 Jy.
? 2MASS K_s_ band magnitude (2) The zero-magnitude fluxes assumed
throughout this paper are: F_{nu}_(J) = 1594 Jy,
F_{nu}_(H) = 1024 Jy, F_{nu}_(K_s_) = 666.7 Jy,
F_{nu}_(3.6 microns) = 280.9 Jy, F_{nu}_(4.5 microns) = 179.7 Jy,
F_{nu}_(5.8 microns) = 115.0 Jy, F_{nu}_(8.0 microns) = 64.13 Jy,
F_{nu}_(MSX E) = 8.75 Jy, F_{nu}_(24.0 micron) = 7.14 Jy.
? GLIMPSE catalog 3.6 micron band magnitude (2) The zero-
magnitude fluxes assumed throughout this paper are:
F_{nu}_(J) = 1594 Jy, F_{nu}_(H) = 1024 Jy, F_{nu}_(K_s_) = 666.7
Jy, F_{nu}_(3.6 microns) = 280.9 Jy, F_{nu}_(4.5
microns) = 179.7 Jy, F_{nu}_(5.8 microns) = 115.0 Jy,
F_{nu}_(8.0 microns) = 64.13 Jy, F_{nu}_(MSX E) = 8.75
Jy, F_{nu}_(24.0 micron) = 7.14 Jy.
GLIMPSE catalog 4.5 micron band magnitude (2) The zero-magnitude
fluxes assumed throughout this paper are: F_{nu}_(J) =
1594 Jy, F_{nu}_(H) = 1024 Jy, F_{nu}_(K_s_) = 666.7 Jy,
F_{nu}_(3.6 microns) = 280.9 Jy, F_{nu}_(4.5 microns) = 179.7 Jy,
F_{nu}_(5.8 microns) = 115.0 Jy, F_{nu}_(8.0 microns) = 64.13 Jy,
F_{nu}_(MSX E) = 8.75 Jy, F_{nu}_(24.0 micron) = 7.14 Jy.
? GLIMPSE catalog 5.8 micron band magnitude (2) The zero-
magnitude fluxes assumed throughout this paper are:
F_{nu}_(J) = 1594 Jy, F_{nu}_(H) = 1024 Jy, F_{nu}_(K_s_) = 666.7
Jy, F_{nu}_(3.6 microns) = 280.9 Jy, F_{nu}_(4.5
microns) = 179.7 Jy, F_{nu}_(5.8 microns) = 115.0 Jy,
F_{nu}_(8.0 microns) = 64.13 Jy, F_{nu}_(MSX E) = 8.75
Jy, F_{nu}_(24.0 micron) = 7.14 Jy.
GLIMPSE catalog 8.0 micron band magnitude (2) The zero-magnitude
fluxes assumed throughout this paper are: F_{nu}_(J) =
1594 Jy, F_{nu}_(H) = 1024 Jy, F_{nu}_(K_s_) = 666.7 Jy,
F_{nu}_(3.6 microns) = 280.9 Jy, F_{nu}_(4.5 microns) = 179.7 Jy,
F_{nu}_(5.8 microns) = 115.0 Jy, F_{nu}_(8.0 microns) = 64.13 Jy,
F_{nu}_(MSX E) = 8.75 Jy, F_{nu}_(24.0 micron) = 7.14 Jy.
This paper's 4.5 micron band magnitude (2) The zero-magnitude
fluxes assumed throughout this paper are: F_{nu}_(J) =
1594 Jy, F_{nu}_(H) = 1024 Jy, F_{nu}_(K_s_) = 666.7 Jy,
F_{nu}_(3.6 microns) = 280.9 Jy, F_{nu}_(4.5 microns) = 179.7 Jy,
F_{nu}_(5.8 microns) = 115.0 Jy, F_{nu}_(8.0 microns) = 64.13 Jy,
F_{nu}_(MSX E) = 8.75 Jy, F_{nu}_(24.0 micron) = 7.14 Jy.
This paper's 8.0 micron band magnitude (2) The zero-magnitude
fluxes assumed throughout this paper are: F_{nu}_(J) =
1594 Jy, F_{nu}_(H) = 1024 Jy, F_{nu}_(K_s_) = 666.7 Jy,
F_{nu}_(3.6 microns) = 280.9 Jy, F_{nu}_(4.5 microns) = 179.7 Jy,
F_{nu}_(5.8 microns) = 115.0 Jy, F_{nu}_(8.0 microns) = 64.13 Jy,
F_{nu}_(MSX E) = 8.75 Jy, F_{nu}_(24.0 micron) = 7.14 Jy.
? This paper's MSX E band magnitude (2) The zero-magnitude fluxes
assumed throughout this paper are: F_{nu}_(J) = 1594
Jy, F_{nu}_(H) = 1024 Jy, F_{nu}_(K_s_) = 666.7 Jy,
F_{nu}_(3.6 microns) = 280.9 Jy, F_{nu}_(4.5 microns) = 179.7 Jy,
F_{nu}_(5.8 microns) = 115.0 Jy, F_{nu}_(8.0 microns) = 64.13 Jy,
F_{nu}_(MSX E) = 8.75 Jy, F_{nu}_(24.0 micron) = 7.14 Jy.
? This paper's 24 micron band magnitude (2) The zero-magnitude
fluxes assumed throughout this paper are: F_{nu}_(J) =
1594 Jy, F_{nu}_(H) = 1024 Jy, F_{nu}_(K_s_) = 666.7 Jy,
F_{nu}_(3.6 microns) = 280.9 Jy, F_{nu}_(4.5 microns) = 179.7 Jy,
F_{nu}_(5.8 microns) = 115.0 Jy, F_{nu}_(8.0 microns) = 64.13 Jy,
F_{nu}_(MSX E) = 8.75 Jy, F_{nu}_(24.0 micron) = 7.14 Jy.
Flag on Name (3) This column lists two characters, which are
flags for 4.5 and 8.0 microns respectively. A =
GLIMPSE Catalog magnitudes are in agreement with the independent
magnitudes calculated in this paper; I = the independent
magnitudes calculated in this paper should be trusted
over the GLIMPSE Catalog magnitudes.