bionic (7) muse_standard.7.gz

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NAME
       muse_standard - Create a flux response curve from a standard star exposure.


SYNOPSIS
       esorex muse_standard [OPTIONS] FILE.sof


DESCRIPTION
       Merge  pixel tables from all IFUs and correct for differential atmospheric refraction. To derive the flux
       response curve, integrate the flux of all objects detected within the  field  of  view  using  the  given
       profile.  Select  one object as the standard star (either the brightest or the one nearest one, depending
       on --select) and compare its  measured  fluxes  to  tabulated  fluxes  to  derive  the  sensitivity  over
       wavelength. Postprocess this sensitivity curve to mark wavelength ranges affected by telluric absorption.
       Interpolate over the telluric regions and derive a telluric  correction  spectrum  for  them.  The  final
       response  cuve  is  then linearly extrapolated to the largest possible MUSE wavelength range and smoothed
       (with the method given by --smooth). The derivation of the telluric correction spectrum assumes that  the
       star  has a smooth spectrum within the telluric regions. If there are more than one exposure given in the
       input data, the derivation of the flux response and telluric corrections are  done  separately  for  each
       exposure.  For each exposure, an image containing the extracted stellar spectra and the datacube used for
       flux integration are saved, together with collapsed images for each given filter.


OPTIONS
       --profile <str>
              Type of flux integration to use. "gaussian" and "moffat" use 2D profile fitting, circle and square
              are  non-optimal flux integrators.  (str; default: ´moffat´). The full name of this option for the
              EsoRex configuration file is muse.muse_standard.profile [default = moffat].

       --select <str>
              How to select the star for flux  integration,  "flux"  uses  the  brightest  star  in  the  field,
              "distance"  uses  the  detection  nearest  to the approximate coordinates of the reference source.
              (str; default: ´distance´). The full name of this option for  the  EsoRex  configuration  file  is
              muse.muse_standard.select [default = distance].

       --smooth <str>
              How  to  smooth  the  response  curve  before  writing  it to disk. "none" does not do any kind of
              smoothing (such a response  curve  is  only  useful,  if  smoothed  externally;  "median"  does  a
              median-filter of 15 Angstrom half-width; "ppoly" fits piecewise cubic polynomials (each one across
              2x150 Angstrom width) postprocessed by a sliding average filter of 15 Angstrom  half-width.  (str;
              default:   ´ppoly´).  The  full  name  of  this  option  for  the  EsoRex  configuration  file  is
              muse.muse_standard.smooth [default = ppoly].

       --lambdamin <float>
              Cut off the data below this wavelength after loading the pixel table(s). (float; default: 4000.0).
              The  full  name  of  this option for the EsoRex configuration file is muse.muse_standard.lambdamin
              [default = 4000.0].

       --lambdamax <float>
              Cut off the data above  this  wavelength  after  loading  the  pixel  table(s).  (float;  default:
              10000.0).   The   full   name   of   this   option   for   the   EsoRex   configuration   file  is
              muse.muse_standard.lambdamax [default = 10000.0].

       --lambdaref <float>
              Reference wavelength used for correction of differential atmospheric refraction. The R-band  (peak
              wavelength ~7000 Angstrom) that is usually used for guiding, is close to the central wavelength of
              MUSE, so a value of 7000.0 Angstrom should be used if nothing else is known.  A  value  less  than
              zero  switches  DAR correction off. (float; default: 7000.0). The full name of this option for the
              EsoRex configuration file is muse.muse_standard.lambdaref [default = 7000.0].

       --darcheck <str>
              Carry out a check of the theoretical DAR correction using source centroiding. If "correct" it will
              also  apply an empirical correction.  (str; default: ´none´). The full name of this option for the
              EsoRex configuration file is muse.muse_standard.darcheck [default = none].

       --filter <str>
              The filter name(s) to be used for the output field-of-view image. Each name has to  correspond  to
              an  EXTNAME  in  an  extension  of  the  FILTER_LIST file. If an unsupported filter name is given,
              creation of the respective image is omitted. If multiple filter names are given, they have  to  be
              comma   separated.   If   the   zeropoint   QC   parameters   are   wanted,   make   sure  to  add
              "Johnson_V,Cousins_R,Cousins_I". (str; default: ´white´). The full name of  this  option  for  the
              EsoRex configuration file is muse.muse_standard.filter [default = white].

       Note  that  it  is  possible to create a configuration file containing these options, along with suitable
       default values. Please refer to the details provided by the 'esorex --help' command.


SEE ALSO
       The full documentation for the muse pipeline can be downloaded as a PDF file using the following URL:

              ftp://ftp.eso.org/pub/dfs/pipelines/muse/muse-pipeline-cookbook-2.2.0.pdf

       An   overview   over   the   existing   ESO   pipelines    can    be    found    on    the    web    page
       http://www.eso.org/sci/software/pipelines/.

       Basic documentation about the EsoRex program can be found at the esorex (1) man page.

       It   is   possible   to   call   the   pipelines   from   python   using  the  python-cpl  package.   See
       http://packages.python.org/python-cpl/index.html for further information.

       The  other  recipes  of  the  muse   pipeline   are   muse_ampl(7),   muse_astrometry(7),   muse_bias(7),
       muse_create_sky(7), muse_dark(7), muse_exp_align(7), muse_exp_combine(7), muse_flat(7), muse_geometry(7),
       muse_lingain(7),       muse_lsf(7),       muse_qi_mask(7),       muse_scibasic(7),       muse_scipost(7),
       muse_scipost_apply_astrometry(7),    muse_scipost_calibrate_flux(7),   muse_scipost_combine_pixtables(7),
       muse_scipost_correct_dar(7),            muse_scipost_correct_rv(7),            muse_scipost_make_cube(7),
       muse_scipost_subtract_sky(7), muse_scipost_subtract_sky_simple(7), muse_twilight(7), muse_wavecal(7)


VERSION
       muse_standard 2.2.0


AUTHOR
       Peter Weilbacher <usd-help@eso.org>


BUG REPORTS
       Please  report  any  problems  to  usd-help@eso.org. Alternatively, you may send a report to the ESO User
       Support Department <usd-help@eso.org>.


LICENSE
       This file is part of the MUSE Instrument Pipeline Copyright (C) 2005, 2017 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  02111-1307  USA