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NAME

       xsh_respon_slit_nod - Reduce STD star frames in SLIT configuration and nod mode

SYNOPSIS

       esorex xsh_respon_slit_nod [OPTIONS] FILE.sof

DESCRIPTION

       This recipe reduces science exposure in SLIT configuration and NOD mode Input Frames :
         - A set of n Science frames ( n even ), Tag = OBJECT_SLIT_NOD_arm
         - Spectral format table (Tag = SPECTRAL_FORMAT_TAB_arm)
         - [UVB,VIS] A master bias frame (Tag = MASTER_BIAS_arm)
         - A master flat frame (Tag = MASTER_FLAT_SLIT_arm)
         - An order table frame(Tag = ORDER_TABLE_EDGES_SLIT_arm)
         - [poly mode] A wave solution frame(Tag = WAVE_TAB_2D_arm)
         - [poly mode] A wave map frame(Tag = WAVE_MAP_arm)
         - [poly mode] A disp table frame(Tag = DISP_TAB_arm)
         - [physical model mode]A model cfg table (Format = TABLE, Tag = XSH_MOD_CFG_TAB_arm)
         - [OPTIONAL] A telluric model catalog (Tag = TELL_MOD_CAT_arm arm=VIS,NIR)
         - A standard star fluxes catalog (Tag = FLUX_STD_CATALOG_arm Type = FLX)
         - A table to set response sampling points (Tag = RESP_FIT_POINTS_CAT_arm)
         - [OPTIONAL] An atmospheric extinction table (Tag = ATMOS_EXT_arm)
           if provided this is the one used to flux calibrate the spectra Products :
         - [If STD is in catal] The response function (Tag = PREFIX_RESPONSE_ORDER1D_SLIT_arm)
         - [If STD is in catal] The response function (Tag = PREFIX_RESPONSE_MERGE1D_SLIT_arm)
         - PREFIX_ORDER2D_arm (2 dimension)
         - PREFIX_ORDER1D_arm (1 dimension)
         - PREFIX_MERGE2D_arm (2 dimension)
         - PREFIX_MERGE1D_arm (1 dimension)
         - PREFIX_WAVE_MAP_arm, wave map image
         - PREFIX_SLIT_MAP_arm, slit map image
         -   [If   STD   is   in  catal]  Flux  calibrated  order-by-order  2D  spectrum  (Tag  =
       PREFIX_FLUX_ORDER2D_arm)
         -  [If  STD  is  in  catal]  Flux  calibrated  order-by-order   1D   spectrum   (Tag   =
       PREFIX_FLUX_ORDER1D_arm)
         -   [If   STD   is   in   catal]   Flux   calibrated   merged   2D   spectrum   (Tag   =
       PREFIX_FLUX_MERGE2D_arm)
         -   [If   STD   is   in   catal]   Flux   calibrated   merged   1D   spectrum   (Tag   =
       PREFIX_FLUX_MERGE1D_arm)
         - [If STD is in catal] The efficiency (Tag = EFFICIENCY_SLIT_arm)
         -  where  PREFIX  is  SCI,  FLUX,  TELL if input raw DPR.TYPE contains OBJECT or FLUX or
       TELLURIC

OPTIONS

       --keep-temp <str>
              If ´no´, temporary files are deleted. (str; default: ´no´). The full name  of  this
              option  for  the  EsoRex  configuration  file  is xsh.xsh_respon_slit_nod.keep-temp
              [default = no].

       --debug-level <str>
              Additional xshooter debug level. One  of  ´none´,  ´low´,  ´medium´,  ´high´  (str;
              default: ´none´). The full name of this option for the EsoRex configuration file is
              xsh.xsh_respon_slit_nod.debug-level [default = none].

       --time-stamp <bool>
              Add timestamp to product file name. (bool; default: False). The full name  of  this
              option  for  the  EsoRex  configuration  file is xsh.xsh_respon_slit_nod.time-stamp
              [default = False].

       --decode-bp <int>
              Integer representation of the bits to be considered bad when decoding the bad pixel
              mask  pixel  values.    Most frequent codes relevant for the user:   0: good pixel,
              8: pick-up noise,   16: cosmic-ray  removed,    32:  cosmic-ray  unremoved,    128:
              calibration  file  defect, 256: hot pixel,   512: dark pixel,   4096: A/D converted
              saturation, 32768: non linear pixel,   1048576: extrapolated flux in NIR,  4194304:
              Interpolated  flux  during extraction. (int; default: 1741684735). The full name of
              this option for the EsoRex configuration file is  xsh.xsh_respon_slit_nod.decode-bp
              [default = 1741684735].

       --pre-overscan-corr <int>
              pre-overscan  correction.  0:  no  correction  1:  mean overscan correction 2: mean
              prescan correction 3: (mean pre+mean overscan)/2 correction (int; default: 1).  The
              full    name    of   this   option   for   the   EsoRex   configuration   file   is
              xsh.xsh_respon_slit_nod.pre-overscan-corr [default = 1].

       --stack-method <str>
              Method used to build master frame. (str; default: ´median´). The full name of  this
              option  for  the  EsoRex configuration file is xsh.xsh_respon_slit_nod.stack-method
              [default = median].

       --klow <float>
              Kappa used to clip low level values, when method is set to ´mean´ (float;  default:
              5.0).  The  full  name  of  this  option  for  the  EsoRex  configuration  file  is
              xsh.xsh_respon_slit_nod.klow [default = 5.0].

       --khigh <float>
              Kappa used to clip high level values, when method is set to ´mean´ (float; default:
              5.0).  The  full  name  of  this  option  for  the  EsoRex  configuration  file  is
              xsh.xsh_respon_slit_nod.khigh [default = 5.0].

       --removecrhsingle-sigmalim <float>
              Poisson fluctuation threshold to flag CRHs (see van Dokkum, PASP,113,2001,p1420-27)
              (float;  default:  20.0). The full name of this option for the EsoRex configuration
              file is xsh.xsh_respon_slit_nod.removecrhsingle-sigmalim [default = 20.0].

       --removecrhsingle-flim <float>
              Minimum contrast between the Laplacian image and the fine structure  image  that  a
              point  must  have  to  be  flagged as CRH. (see van Dokkum, PASP,113,2001,p1420-27)
              (float; default: 2.0). The full name of this option for  the  EsoRex  configuration
              file is xsh.xsh_respon_slit_nod.removecrhsingle-flim [default = 2.0].

       --removecrhsingle-niter <int>
              Max  number  of  iterations (int; default: 4). The full name of this option for the
              EsoRex configuration file is xsh.xsh_respon_slit_nod.removecrhsingle-niter [default
              = 4].

       --rectify-kernel <str>
              Name  of  the  Interpolation  Kernel Used. Possible values are:  tanh, sinc, sinc2,
              lanczos, hamming, hann. (str; default: ´tanh´). The full name of  this  option  for
              the  EsoRex configuration file is xsh.xsh_respon_slit_nod.rectify-kernel [default =
              tanh].

       --rectify-radius <float>
              Rectify Interpolation radius [bin units]. (float; default: 2.0). The full  name  of
              this      option      for      the      EsoRex      configuration      file      is
              xsh.xsh_respon_slit_nod.rectify-radius [default = 2.0].

       --rectify-bin-lambda <float>
              Wavelength step in the output spectrum [nm] (float; default: -1.0). The  full  name
              of     this     option     for     the     EsoRex     configuration     file     is
              xsh.xsh_respon_slit_nod.rectify-bin-lambda [default = -1.0].

       --rectify-bin-slit <float>
              Spatial step along the slit in the output spectrum [arcsec] (float; default: -1.0).
              The   full   name   of   this   option   for   the  EsoRex  configuration  file  is
              xsh.xsh_respon_slit_nod.rectify-bin-slit [default = -1.0].

       --rectify-fast <bool>
              Fast if TRUE (Rect[B-A] = -Rect[A-B]), in that case only entire  pixel  shifts  are
              applied.   (bool;  default:  True).  The  full  name  of this option for the EsoRex
              configuration file is xsh.xsh_respon_slit_nod.rectify-fast [default = True].

       --localize-method <str>
              Localization method (MANUAL, MAXIMUM, GAUSSIAN) used to detect the object  centroid
              and  height  on the slit (str; default: ´MANUAL´). The full name of this option for
              the EsoRex configuration file is xsh.xsh_respon_slit_nod.localize-method [default =
              MANUAL].

       --localize-chunk-nb <int>
              Number  of  chunks  in the full spectrum to localize the object (int; default: 10).
              The  full  name  of  this   option   for   the   EsoRex   configuration   file   is
              xsh.xsh_respon_slit_nod.localize-chunk-nb [default = 10].

       --localize-thresh <float>
              Threshold  relative  to  the peak intensity below which the edges of the object are
              detected for MAXIMUM localization (float; default: 0.1).  The  full  name  of  this
              option for the EsoRex configuration file is xsh.xsh_respon_slit_nod.localize-thresh
              [default = 0.1].

       --localize-deg-lambda <int>
              Degree in lambda in the localization  polynomial  expression  slit=f(lambda),  used
              only  for  MAXIMUM and GAUSSIAN (int; default: 0). The full name of this option for
              the  EsoRex  configuration  file   is   xsh.xsh_respon_slit_nod.localize-deg-lambda
              [default = 0].

       --localize-slit-position <float>
              Object position on the slit for MANUAL localization [arcsec] (float; default: 0.0).
              The  full  name  of  this   option   for   the   EsoRex   configuration   file   is
              xsh.xsh_respon_slit_nod.localize-slit-position [default = 0.0].

       --localize-slit-hheight <float>
              Object  half  height  on the slit for MANUAL localization [arcsec] (float; default:
              2.0).  The  full  name  of  this  option  for  the  EsoRex  configuration  file  is
              xsh.xsh_respon_slit_nod.localize-slit-hheight [default = 2.0].

       --localize-kappa <float>
              Kappa  value for sigma clipping in the localization polynomial fit (float; default:
              3.0).  The  full  name  of  this  option  for  the  EsoRex  configuration  file  is
              xsh.xsh_respon_slit_nod.localize-kappa [default = 3.0].

       --localize-niter <int>
              Number  of  iterations  for sigma clipping in the localization polynomial fit (int;
              default: 3). The full name of this option for  the  EsoRex  configuration  file  is
              xsh.xsh_respon_slit_nod.localize-niter [default = 3].

       --localize-use-skymask <bool>
              TRUE if we want to mask sky lines using SKY_LINE_LIST file. (bool; default: False).
              The  full  name  of  this   option   for   the   EsoRex   configuration   file   is
              xsh.xsh_respon_slit_nod.localize-use-skymask [default = False].

       --localize-nod-throw <float>
              Step  (arcsec)  between  A and B images in nodding mode. (float; default: 0.0). The
              full   name   of   this   option   for   the   EsoRex   configuration    file    is
              xsh.xsh_respon_slit_nod.localize-nod-throw [default = 0.0].

       --extract-method <str>
              Method used for extraction (LOCALIZATION, NOD) (str; default: ´NOD´). The full name
              of     this     option     for     the     EsoRex     configuration     file     is
              xsh.xsh_respon_slit_nod.extract-method [default = NOD].

       --stdextract-interp-hsize <int>
              Half size of mask used to define object cross order profile (int; default: 30). The
              full   name   of   this   option   for   the   EsoRex   configuration    file    is
              xsh.xsh_respon_slit_nod.stdextract-interp-hsize [default = 30].

       --combinenod-throwlist <str>
              Name  of  ascii  file containing the list of throw shifts with respect to the first
              exposure (str; default: ´throwlist.asc´). The full name  of  this  option  for  the
              EsoRex  configuration file is xsh.xsh_respon_slit_nod.combinenod-throwlist [default
              = throwlist.asc].

       --combinenod-method <str>
              Combination method for nodded frames (MEDIAN, MEAN)  (str;  default:  ´MEAN´).  The
              full    name    of   this   option   for   the   EsoRex   configuration   file   is
              xsh.xsh_respon_slit_nod.combinenod-method [default = MEAN].

       --max-slit <float>
              Lower Slit Limit (localize and extract (float; default: 5.7). The full name of this
              option  for  the  EsoRex  configuration  file  is  xsh.xsh_respon_slit_nod.max-slit
              [default = 5.7].

       --min-slit <float>
              Upper Slit Limit (localize and extract (float; default: -5.3).  The  full  name  of
              this  option  for the EsoRex configuration file is xsh.xsh_respon_slit_nod.min-slit
              [default = -5.3].

       --correct-tellurics <bool>
              TRUE if during response computation we apply telluric  correction  (bool;  default:
              True).  The  full  name  of  this  option  for  the  EsoRex  configuration  file is
              xsh.xsh_respon_slit_nod.correct-tellurics [default = True].

       --correct-sky-by-median <bool>
              TRUE if the resampled spectrum at each wavelength is median  subtracted  to  remove
              sky  lines  (bool;  default:  True).  The  full  name of this option for the EsoRex
              configuration  file  is  xsh.xsh_respon_slit_nod.correct-sky-by-median  [default  =
              True].

       --scale-combine-nod-method <int>
              frame  scaling  when  nod  frames  are  combined: 0 (no-scaling); 1 (scaling) (int;
              default: 1). The full name of this option for  the  EsoRex  configuration  file  is
              xsh.xsh_respon_slit_nod.scale-combine-nod-method [default = 1].

       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 xshoo pipeline can be downloaded as a PDF file using the
       following URL:

              ftp://ftp.eso.org/pub/dfs/pipelines/xshoo/xshoo-pipeline-manual-12.1.pdf

       An  overview  over  the  existing  ESO  pipelines  can  be   found   on   the   web   page
       https://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
       https://packages.python.org/python-cpl/index.html for further information.

       The  other  recipes  of  the  xshoo   pipeline   are   xsh_2dmap(7),   xsh_cfg_recover(7),
       xsh_flexcomp(7),     xsh_geom_ifu(7),    xsh_lingain(7),    xsh_mbias(7),    xsh_mdark(7),
       xsh_mflat(7),      xsh_orderpos(7),       xsh_predict(7),       xsh_respon_slit_offset(7),
       xsh_respon_slit_stare(7),      xsh_scired_ifu_offset(7),     xsh_scired_ifu_offset_drl(7),
       xsh_scired_ifu_stare(7),       xsh_scired_ifu_stare_drl(7),        xsh_scired_slit_nod(7),
       xsh_scired_slit_offset(7), xsh_scired_slit_stare(7), xsh_util_physmod(7), xsh_wavecal(7)

VERSION

       xsh_respon_slit_nod 3.5.3

AUTHOR

       P.Goldoni, L.Guglielmi, R. Haigron, F. Royer, D. Bramich A. Modigliani <amodigli@eso.org>

BUG REPORTS

       Please  report  any  problems to amodigli@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  X-shooter  Instrument  Pipeline  Copyright  (C)  2006  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., 59 Temple Place, Suite  330,  Boston,
       MA  02111-1307  USA