The TF images are combined and calibrated in wavelength and photometric flux; it requires a carefull analysis of the wavelength variation along the OSIRIS FOV of each of the images as well as the actual position of each pointing. These steps can be briefly summarized in the following figure:
Figure: Overview of data calibration OTELO survey
The resulting OTELO pseudo spectra is a set of fluxes corresponding to different wavelength coverages, where, each flux point is the result of the combination of (in general) 6 different TF images, although this number would vary between 1 and 12 TF images.
Moreover, as result of the wavelngth variation along the FOV and the dithering process, not all pseudo spectra cover the same wavelength range. The situation is summarized in the following figure:
Figure: Effect of the variation of wavelength coverage in OTELO pseudo-spectra. Top-Right: Variation of the redder wavelength in each OTELO pseudo spectra, mainly driven by the wavelength variation along the OSIRIS FOV (using pointing 1 as reference value). Bottom: Spectral coverage variation ( Δλ among reddest and bluest wavelengths) of each OTELO speudo spectra along the OSIRIS FOV (using pointing 1 as reference value), mainly driven by the dithering patterm.
The net effect is that each OTELO pseudo spectra has a different wavelength coverage and resolution depending the relative position of the source with respect the FOV center of the reference image. The larger the relative distance, the bluer the redder flux point in the pseudo spectra (folowing a circular pattern), and the larger the wavelength coverage and number of fluxes points (following a rectangular pattern due to the dithering).
In addition, the effective response of each flux point, since a combination of different TF images, does not corresponds to the transmission curve of any single TF but an hybrid combination of them which depends of the relative position of the source with respect to the reference FOV center and the assumed dithering pattern. In particular, for large distances to the FOV center, the pseudo spectra would contain more than 36 wavelength points.
You can access the public OTELO pseudo spectra of the individual sources from the Thumbnails page in the Data & Tools section. If you require a massive download of OTELO pseudo spectra, please contact the IP (Dr. Jordi Cepa; jcn at iac.es)
The OTELO pseudo spectra contains a header with the following information:
#OTELO-EGS-R5-( ID) X Y R.A. Dec FLAG
where ID is the OTELO ID used in the catalog; X and Y are the position in the OTELO DEEP image (see OTELO Deep & Ancillary Data for details); R.A. and DEC are the J2000.0 Equatorial coordinates in deg of the object; and FLAG is the Flags (cautions) produced by Sextractor when the particular sources are obteind from the OTELO DEEP image (see this page of Sextractor documentation for the meaning od each flag, we note that a flag equal to 0 means no caution).
There are two version of the pseudo spectra, the sort version contains 3 columns with the following information:
If requested, we also provide extended pseudo spectra files with 8 columns, wich columns are:
Important Note: We recall that not all pseudo spectra contains the same number of wavelenght points, as explaind previously.
Here is an example of the pseudo spectra of the object with ID 2146 in sort (standard) format
#OTELO-EGS-R5-( 2146) 1631.537 355.932 214.2999159 52.4338312 2 #Wavelength [Angstrom] #Flux [1E-17 erg/s/cm^2/A] #sigma-Flux [1E-17 erg/s/cm^2/A] 9210.905 0.32550501 0.05112325 9208.202 0.29438101 0.02838626 9201.760 0.26592591 0.02073058 9196.245 0.29766127 0.01916135 9190.038 0.28629682 0.01597103 9183.527 0.25126995 0.01135204 9176.588 0.27328595 0.01257889 9172.294 0.30853588 0.01463348 9166.389 0.29136257 0.01082986 9159.508 0.33813600 0.01085160 9154.063 0.36884424 0.01279902 9147.604 0.57826625 0.01477170 9141.472 0.60835175 0.01707737 9134.882 0.67000202 0.01872577 9128.593 0.69244282 0.01567019 9123.765 0.72718477 0.01632136 9117.785 0.83449174 0.01155833 9111.004 1.15112855 0.01695031 9106.019 1.22578309 0.01810150 9099.933 1.17011627 0.01695550 9093.891 0.92575357 0.01785251 9088.534 0.70806815 0.02222698 9082.214 0.49582604 0.01285549 9075.910 0.44380371 0.01781846 9071.490 0.40738231 0.01994940 9064.440 0.33420470 0.01175732 9057.642 0.26696353 0.01005120 9053.771 0.26917626 0.01302524 9046.944 0.29095035 0.00998824 9040.423 0.26081838 0.01187246 9035.082 0.27397518 0.01323496 9028.973 0.28817939 0.01262504 9023.109 0.22478703 0.01536956 9017.767 0.25565790 0.01383688 9011.690 0.23625494 0.01279797 9005.390 0.21685379 0.01489312 8999.250 0.21610104 0.01630405 8993.427 0.22761319 0.01669720 8987.762 0.20790675 0.02117210 8981.781 0.20188732 0.03004042
And here is an example of the same pseudo spectra in the extended format
#OTELO-EGS-R5-( 2146) 1631.537 355.932 214.2999159 52.4338312 2 #Wavelength [Angstrom] (4) #Flux [erg/s/cm^2/A] (6) #sigma-Flux [erg/s/cm^2/A] (7) 1 9210.905 9210.905 9210.905 3.000 0.32550501E-17 0.51123251E-18 12.35 2 9205.499 9210.905 9208.202 -0.297 0.29438101E-17 0.28386257E-18 12.35 3 9200.380 9203.764 9201.760 0.145 0.26592591E-17 0.20730578E-18 12.35 5 9193.643 9198.809 9196.245 -0.339 0.29766127E-17 0.19161353E-18 12.34 6 9188.463 9192.621 9190.038 -0.133 0.28629682E-17 0.15971034E-18 12.34 7 9180.919 9186.813 9183.527 0.378 0.25126995E-17 0.11352044E-18 12.32 5 9175.498 9178.456 9176.588 1.317 0.27328595E-17 0.12578888E-18 12.30 4 9171.036 9173.904 9172.294 -0.389 0.30853588E-17 0.14633479E-18 12.28 6 9163.860 9168.496 9166.389 -0.484 0.29136257E-17 0.10829857E-18 12.25 8 9156.957 9162.553 9159.508 0.397 0.33813600E-17 0.10851602E-18 12.21 5 9151.779 9156.849 9154.063 -0.158 0.36884424E-17 0.12799023E-18 12.16 7 9145.981 9150.672 9147.604 0.301 0.57826625E-17 0.14771701E-18 12.13 6 9139.211 9144.621 9141.472 0.433 0.60835175E-17 0.17077367E-18 12.09 6 9133.282 9138.419 9134.882 1.023 0.67000202E-17 0.18725771E-18 12.11 4 9127.009 9130.705 9128.593 1.312 0.69244282E-17 0.15670192E-18 12.22 5 9122.059 9125.169 9123.765 0.140 0.72718477E-17 0.16321358E-18 12.32 9 9114.956 9120.617 9117.785 0.120 0.83449174E-17 0.11558333E-18 12.38 4 9109.444 9113.159 9111.004 0.901 0.11511285E-16 0.16950312E-18 12.36 6 9103.353 9108.869 9106.019 -0.114 0.12257831E-16 0.18101500E-18 12.35 5 9097.509 9102.124 9099.933 -0.028 0.11701163E-16 0.16955499E-18 12.34 6 9091.003 9095.959 9093.891 0.014 0.92575357E-17 0.17852512E-18 12.34 5 9087.286 9089.166 9088.534 -0.628 0.70806815E-17 0.22226978E-18 12.34 7 9079.001 9084.295 9082.214 -0.309 0.49582604E-17 0.12855493E-18 12.35 5 9073.416 9077.769 9075.910 -0.004 0.44380371E-17 0.17818461E-18 12.35 4 9070.450 9072.817 9071.490 -1.584 0.40738231E-17 0.19949397E-18 12.36 7 9061.107 9066.453 9064.440 -0.534 0.33420470E-17 0.11757320E-18 12.37 7 9055.091 9060.694 9057.642 0.263 0.26696353E-17 0.10051200E-18 12.40 4 9052.715 9054.620 9053.771 -1.866 0.26917626E-17 0.13025238E-18 12.41 8 9043.224 9048.886 9046.944 -1.039 0.29095035E-17 0.99882398E-19 12.42 6 9037.086 9042.400 9040.423 -0.518 0.26081838E-17 0.11872459E-18 12.43 4 9031.154 9036.736 9035.082 -1.177 0.27397518E-17 0.13234957E-18 12.45 6 9024.978 9030.553 9028.973 -1.068 0.28817939E-17 0.12625037E-18 12.48 5 9022.186 9023.749 9023.109 -1.204 0.22478703E-17 0.15369562E-18 12.50 7 9016.127 9018.818 9017.767 -1.862 0.25565790E-17 0.13836880E-18 12.50 8 9009.930 9012.387 9011.690 -1.785 0.23625494E-17 0.12797973E-18 12.50 6 9003.873 9006.245 9005.390 -1.485 0.21685379E-17 0.14893119E-18 12.51 6 8997.923 9000.552 8999.250 -1.345 0.21610104E-17 0.16304047E-18 12.52 5 8992.178 8994.306 8993.427 -1.522 0.22761319E-17 0.16697202E-18 12.52 4 8987.408 8988.081 8987.762 -1.857 0.20790675E-17 0.21172102E-18 12.52 2 8981.780 8981.782 8981.781 -1.876 0.20188732E-17 0.30040416E-18 12.52 #EOPs