The fors_pmos_science recipe¶
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fors_pmos_science
¶
Synopsis¶
Extraction of scientific spectra
Description¶
This recipe is used to reduce scientific spectra using the extraction mask and the products created by the recipe fors_mpol_calib. The spectra are bias subtracted, flat fielded (if a normalised flat field is specified) and remapped eliminating the optical distortions. The wavelength calibration can be optionally upgraded using a number of sky lines: if no sky lines catalog of wavelengths is specified, an internal one is used instead.
If the alignment to the sky lines is performed, the input dispersion coefficients table is upgraded and saved to disk, and a new CCD wavelengths map is created.
This recipe accepts both FORS1 and FORS2 frames. A grism table (typically depending on the instrument mode, and in particular on the grism used) may also be specified: this table contains a default recipe parameter setting to control the way spectra are extracted for a specific instrument mode, as it is used for automatic run of the pipeline on Paranal and in Garching. If this table is specified, it will modify the default recipe parameter setting, with the exception of those parameters which have been explicitly modifyed on the command line. If a grism table is not specified, the input recipe parameters values will always be read from the command line, or from an esorex configuration file if present, or from their generic default values (that are rarely meaningful).
Either a scientific or a standard star exposure can be specified in input.
The acronym SCI on products should be read STD in case of standard stars observations.
Input files¶
DO category: Type: Explanation: Required:
SCIENCE_PMOS Raw Scientific exposure Y
or STANDARD_PMOS Raw Standard star exposure Y
MASTER_BIAS Calib Master bias Y
GRISM_TABLE Calib Grism table .
MASTER_SKYLINECAT Calib Sky lines catalog .
MASTER_NORM_FLAT_PMOS Calib Normalised flat field .
DISP_COEFF_PMOS Calib Inverse dispersion Y
CURV_COEFF_PMOS Calib Spectral curvature Y
SLIT_LOCATION_PMOS Calib Slits positions table Y
RETARDER_WAVEPLATE_CHROMATISM Calib Chromatism correction .
STD_PMOS_TABLE Calib Linear pol. of std stars .
Output files¶
DO category: Data type: Explanation:
REDUCED_SCI_PMOS FITS image Extracted scientific spectra
REDUCED_SKY_SCI_PMOS FITS image Extracted sky spectra
REDUCED_ERROR_SCI_PMOS FITS image Errors on extracted spectra
REDUCED_X_SCI_PMOS FITS image X Stokes parameter (and L)
REDUCED_ERROR_X_SCI_PMOS FITS image Error on X Stokes parameter
REDUCED_NUL_X_SCI_PMOS FITS image Null parameter for X
REDUCED_ANGLE_SCI_PMOS FITS image Direction of linear polarization
REDUCED_ERROR_ANGLE_SCI_PMOS FITS image Error on polarization direction
UNMAPPED_SCI_PMOS FITS image Sky subtracted scientific spectra
MAPPED_SCI_PMOS FITS image Rectified scientific spectra
MAPPED_ALL_SCI_PMOS FITS image Rectified science spectra with sky
MAPPED_SKY_SCI_PMOS FITS image Rectified sky spectra
UNMAPPED_SKY_SCI_PMOS FITS image Sky on CCD
OBJECT_TABLE_SCI_PMOS FITS table Positions of detected objects
OBJECT_TABLE_POL_SCI_PMOS FITS table Positions of real objects
Only if the sky-alignment of the wavelength solution is requested:
DISP_COEFF_SCI_PMOS FITS table Upgraded dispersion coefficients
WAVELENGTH_MAP_SCI_PMOS FITS image Upgraded wavelength map
Constructor¶
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cpl.
Recipe
("fors_pmos_science") Create an object for the recipe fors_pmos_science.
import cpl
fors_pmos_science = cpl.Recipe("fors_pmos_science")
Parameters¶
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fors_pmos_science.param.
dispersion
¶ Expected spectral dispersion (Angstrom/pixel) (float; default: 0.0) [default=0.0].
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fors_pmos_science.param.
rebin
¶ Rebin (pixel) (int; default: 1) [default=1].
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fors_pmos_science.param.
skyalign
¶ Polynomial order for sky lines alignment, or -1 to avoid alignment (int; default: 0) [default=0].
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fors_pmos_science.param.
wcolumn
¶ Name of sky line catalog table column with wavelengths (str; default: ‘WLEN’) [default=”WLEN”].
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fors_pmos_science.param.
startwavelength
¶ Start wavelength in spectral extraction (float; default: 0.0) [default=0.0].
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fors_pmos_science.param.
endwavelength
¶ End wavelength in spectral extraction (float; default: 0.0) [default=0.0].
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fors_pmos_science.param.
flux
¶ Apply flux conservation (bool; default: True) [default=True].
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fors_pmos_science.param.
flatfield
¶ Apply flat field (bool; default: True) [default=True].
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fors_pmos_science.param.
skymedian
¶ Sky subtraction from extracted slit spectra (bool; default: False) [default=False].
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fors_pmos_science.param.
skylocal
¶ Sky subtraction from CCD slit spectra (bool; default: True) [default=True].
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fors_pmos_science.param.
cosmics
¶ Eliminate cosmic rays hits (only if local sky subtraction is also requested) (bool; default: False) [default=False].
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fors_pmos_science.param.
slit_margin
¶ Number of pixels to exclude at each slit in object detection and extraction (int; default: 3) [default=3].
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fors_pmos_science.param.
ext_radius
¶ Maximum extraction radius for detected objects (pixel) (int; default: 12) [default=12].
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fors_pmos_science.param.
cont_radius
¶ Minimum distance at which two objects of equal luminosity do not contaminate each other (pixel) (int; default: 0) [default=0].
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fors_pmos_science.param.
ext_mode
¶ Object extraction method: 0 = aperture, 1 = Horne optimal extraction (int; default: 1) [default=1].
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fors_pmos_science.param.
match_tolerance
¶ Tolerance for matching spectra from the same object at different angles and beams (pixel) (float; default: 5.0) [default=5.0].
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fors_pmos_science.param.
time_normalise
¶ Normalise output spectra by the exposure time (bool; default: True) [default=True].
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fors_pmos_science.param.
chromatism
¶ Chromatism correction to polarization angles (bool; default: True) [default=True].
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fors_pmos_science.param.
wollaston
¶ Wollaston mounting (FORS2 only): true = 0 degrees (ord. beam on top, extr. beam on bottom), false = 180 degrees (beams are reversed), for FORS1 is frozen to true (bool; default: True) [default=True].
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fors_pmos_science.param.
qc
¶ Compute QC1 parameters (bool; default: True) [default=True].
The following code snippet shows the default settings for the available parameters.
import cpl
fors_pmos_science = cpl.Recipe("fors_pmos_science")
fors_pmos_science.param.dispersion = 0.0
fors_pmos_science.param.rebin = 1
fors_pmos_science.param.skyalign = 0
fors_pmos_science.param.wcolumn = "WLEN"
fors_pmos_science.param.startwavelength = 0.0
fors_pmos_science.param.endwavelength = 0.0
fors_pmos_science.param.flux = True
fors_pmos_science.param.flatfield = True
fors_pmos_science.param.skymedian = False
fors_pmos_science.param.skylocal = True
fors_pmos_science.param.cosmics = False
fors_pmos_science.param.slit_margin = 3
fors_pmos_science.param.ext_radius = 12
fors_pmos_science.param.cont_radius = 0
fors_pmos_science.param.ext_mode = 1
fors_pmos_science.param.match_tolerance = 5.0
fors_pmos_science.param.time_normalise = True
fors_pmos_science.param.chromatism = True
fors_pmos_science.param.wollaston = True
fors_pmos_science.param.qc = True
You may also set or overwrite some or all parameters by the recipe parameter param, as shown in the following example:
import cpl
fors_pmos_science = cpl.Recipe("fors_pmos_science")
[...]
res = fors_pmos_science( ..., param = {"dispersion":0.0, "rebin":1})
See also
cpl.Recipe for more information about the recipe object.
Bug reports¶
Please report any problems to Carlo Izzo. Alternatively, you may send a report to the ESO User Support Department.
Copyright¶
This file is currently part of the FORS Instrument Pipeline Copyright (C) 2002-2010 European Southern Observatory
This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details.
You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
Code author: Carlo Izzo <usd-help@eso.org>