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Changeset 39875


Ignore:
Timestamp:
Dec 16, 2016, 6:17:35 AM (10 years ago)
Author:
eugene
Message:

updates to calibration and Makefiles

Location:
trunk/doc/release.2015
Files:
4 edited

Legend:

Unmodified
Added
Removed
  • trunk/doc/release.2015/Makefile.Common

    r39868 r39875  
    11# $Id: Makefile,v 1.16 2006-01-16 01:11:40 eugene Exp $
    22
    3 PDFLATEX = env TEXINPUTS=.:..:inputs:../inputs:LaTeX:$(TEXINPUTS): pdflatex
    4 PSLATEX  = env TEXINPUTS=.:..:inputs:../inputs:LaTeX:$(TEXINPUTS): latex
    5 BIBTEX   = env BIBINPUTS=.:..:inputs:../inputs BSTINPUTS=.:..:inputs:../inputs bibtex
     3PDFLATEX = env TEXINPUTS=.:../inputs: pdflatex
     4PSLATEX  = env TEXINPUTS=.:../inputs: latex
     5BIBTEX   = env BIBINPUTS=.:../inputs BSTINPUTS=.:../inputs bibtex
    66
    77PS2PDF_OPTS = "-dAutoFilterColorImages=false -dColorImageFilter=/FlateEncode"
     
    1818        $(MY_LATEX) $*.tex
    1919        if [ $(DO_BIBTEX) -eq 1  ]; then $(MY_LATEX) $*.tex; fi
    20         thumbpdf --modes=dvips $*.pdf
    21         $(MY_LATEX) $*.tex
     20#       thumbpdf --modes=dvips $*.pdf
     21#       $(MY_LATEX) $*.tex
    2222        if [ $(DO_PDFLATEX) -eq 0 ]; then dvips -z -t letter -o $*.ps $*.dvi; fi
    2323        if [ $(DO_PDFLATEX) -eq 0 ]; then ps2pdf $(PS2PDF_OPTS) $*.ps $*.pdf; fi
     
    2525
    2626%.tgz:
    27         tar --transform 's%inputs/%%' -zcf $@ $(FILES)
     27        tar --transform 's%inputs/%%' -zcf $@ $(FILES) $*.bbl
    2828clean :
    2929        $(RM) *.bib *.log *.dvi *.aux *.toc *.tbd *.tbr *.tpm *.lof *.out *~ core body.tmp head.tmp
  • trunk/doc/release.2015/inputs/lib.bib

    r39868 r39875  
    1595815958
    1595915959
     15960@INPROCEEDINGS{2009amos.confE..40T,
     15961   author = {{Tonry}, J. and {Onaka}, P.},
     15962    title = "{The Pan-STARRS Gigapixel Camera}",
     15963booktitle = {Advanced Maui Optical and Space Surveillance Technologies Conference},
     15964     year = 2009,
     15965    pages = {E40},
     15966   adsurl = {http://adsabs.harvard.edu/abs/2009amos.confE..40T},
     15967  adsnote = {Provided by the SAO/NASA Astrophysics Data System}
     15968}
     15969
     15970@ARTICLE{2002AA...395.1077C,
     15971   author = {{Calabretta}, M.~R. and {Greisen}, E.~W.},
     15972    title = "{Representations of celestial coordinates in FITS}",
     15973  journal = {\aap},
     15974   eprint = {astro-ph/0207413},
     15975 keywords = {methods: data analysis, techniques: image processing, astronomical data bases: miscellaneous, astrometry},
     15976     year = 2002,
     15977    month = dec,
     15978   volume = 395,
     15979    pages = {1077-1122},
     15980      doi = {10.1051/0004-6361:20021327},
     15981   adsurl = {http://adsabs.harvard.edu/abs/2002A%26A...395.1077C},
     15982  adsnote = {Provided by the SAO/NASA Astrophysics Data System}
     15983}
     15984
     15985@INPROCEEDINGS{2011AAS...21743319J,
     15986   author = {{Juric}, M.},
     15987    title = "{Large Survey Database: A Distributed Framework for Storage and Analysis of Large Datasets}",
     15988booktitle = {American Astronomical Society Meeting Abstracts \#217},
     15989     year = 2011,
     15990   series = {Bulletin of the American Astronomical Society},
     15991   volume = 43,
     15992    month = jan,
     15993      eid = {433.19},
     15994    pages = {433.19},
     15995   adsurl = {http://adsabs.harvard.edu/abs/2011AAS...21743319J},
     15996  adsnote = {Provided by the SAO/NASA Astrophysics Data System}
     15997}
     15998
     15999@ARTICLE{2014ApJ...795...45S,
     16000   author = {{Scolnic}, D. and {Rest}, A. and {Riess}, A. and {Huber}, M.~E. and
     16001        {Foley}, R.~J. and {Brout}, D. and {Chornock}, R. and {Narayan}, G. and
     16002        {Tonry}, J.~L. and {Berger}, E. and {Soderberg}, A.~M. and {Stubbs}, C.~W. and
     16003        {Kirshner}, R.~P. and {Rodney}, S. and {Smartt}, S.~J. and {Schlafly}, E. and
     16004        {Botticella}, M.~T. and {Challis}, P. and {Czekala}, I. and
     16005        {Drout}, M. and {Hudson}, M.~J. and {Kotak}, R. and {Leibler}, C. and
     16006        {Lunnan}, R. and {Marion}, G.~H. and {McCrum}, M. and {Milisavljevic}, D. and
     16007        {Pastorello}, A. and {Sanders}, N.~E. and {Smith}, K. and {Stafford}, E. and
     16008        {Thilker}, D. and {Valenti}, S. and {Wood-Vasey}, W.~M. and
     16009        {Zheng}, Z. and {Burgett}, W.~S. and {Chambers}, K.~C. and {Denneau}, L. and
     16010        {Draper}, P.~W. and {Flewelling}, H. and {Hodapp}, K.~W. and
     16011        {Kaiser}, N. and {Kudritzki}, R.-P. and {Magnier}, E.~A. and
     16012        {Metcalfe}, N. and {Price}, P.~A. and {Sweeney}, W. and {Wainscoat}, R. and
     16013        {Waters}, C.},
     16014    title = "{Systematic Uncertainties Associated with the Cosmological Analysis of the First Pan-STARRS1 Type Ia Supernova Sample}",
     16015  journal = {\apj},
     16016archivePrefix = "arXiv",
     16017   eprint = {1310.3824},
     16018 keywords = {dark energy, supernovae: general},
     16019     year = 2014,
     16020    month = nov,
     16021   volume = 795,
     16022      eid = {45},
     16023    pages = {45},
     16024      doi = {10.1088/0004-637X/795/1/45},
     16025   adsurl = {http://adsabs.harvard.edu/abs/2014ApJ...795...45S},
     16026  adsnote = {Provided by the SAO/NASA Astrophysics Data System}
     16027}
     16028
     16029@ARTICLE{2013ApJS..205...20M,
     16030   author = {{Magnier}, E.~A. and {Schlafly}, E. and {Finkbeiner}, D. and
     16031        {Juric}, M. and {Tonry}, J.~L. and {Burgett}, W.~S. and {Chambers}, K.~C. and
     16032        {Flewelling}, H.~A. and {Kaiser}, N. and {Kudritzki}, R.-P. and
     16033        {Morgan}, J.~S. and {Price}, P.~A. and {Sweeney}, W.~E. and
     16034        {Stubbs}, C.~W.},
     16035    title = "{The Pan-STARRS 1 Photometric Reference Ladder, Release 12.01}",
     16036  journal = {\apjs},
     16037archivePrefix = "arXiv",
     16038   eprint = {1303.3634},
     16039 primaryClass = "astro-ph.IM",
     16040 keywords = {catalogs, instrumentation: photometers, standards, surveys: PS1, techniques: photometric},
     16041     year = 2013,
     16042    month = apr,
     16043   volume = 205,
     16044      eid = {20},
     16045    pages = {20},
     16046      doi = {10.1088/0067-0049/205/2/20},
     16047   adsurl = {http://adsabs.harvard.edu/abs/2013ApJS..205...20M},
     16048  adsnote = {Provided by the SAO/NASA Astrophysics Data System}
     16049}
  • trunk/doc/release.2015/ps1.calibration/Makefile

    r39868 r39875  
    22
    33DO_PDFLATEX = 0
     4# remember to set \pdfoutput at the top
     5
    46DO_BIBTEX = 1
     7# remember to change from \bibliography to \input{.bbl} at the bottom
    58
    69help:
  • trunk/doc/release.2015/ps1.calibration/calibration.tex

    r39868 r39875  
    179179The wide-field \PSONE\ telescope consists of a 1.8~meter diameter
    180180$f$/4.4 primary mirror with an 0.9~m secondary, producing a 3.3 degree
    181 field of view \citep{2004SPIE.5489..667H}.  The optical design yields low
    182 distortion and minimal vignetting even at the edges of the illuminated
    183 region.  The optics, in combination with the natural seeing, result in
    184 generally good image quality: the median image quality for the 3$\pi$
    185 survey is FWHM = (1.31, 1.19, 1.11, 1.07, 1.02) arcseconds for
    186 (\grizy), with a floor of $\sim0.7$ arcseconds.  The \PSONE\ camera
    187 \citep{PS1.GPCA} is a mosaic of 60 edge-abutted $4800\times4800$ pixel
    188 back-illuminated CCID58 Orthogonal Transfer Arrays manufactured by
    189 Lincoln Laboratory \citep{2006amos.confE..47T,2008SPIE.7021E..05T}.
    190 The CCDs have 10~$\mu$m pixels subtending 0.258~arcsec and are
    191 70$\mu$m thick.  The detectors are read out using a StarGrasp CCD
    192 controller, with a readout time of 7 seconds for a full unbinned image
     181field of view \citep{2004SPIE.5489..667H}.  The optical design yields
     182low distortion and minimal vignetting even at the edges of the
     183illuminated region.  The optics, in combination with the natural
     184seeing, result in generally good image quality: the median image
     185quality for the 3$\pi$ survey is FWHM = (1.31, 1.19, 1.11, 1.07, 1.02)
     186arcseconds for (\grizy), with a floor of $\sim0.7$ arcseconds.  The
     187\PSONE\ camera \citep{2009amos.confE..40T} is a mosaic of 60
     188edge-abutted $4800\times4800$ pixel back-illuminated CCID58 Orthogonal
     189Transfer Arrays manufactured by Lincoln Laboratory
     190\citep{2006amos.confE..47T,2008SPIE.7021E..05T}.  The CCDs have
     19110~$\mu$m pixels subtending 0.258~arcsec and are 70$\mu$m thick.  The
     192detectors are read out using a StarGrasp CCD controller, with a
     193readout time of 7 seconds for a full unbinned image
    193194\citep{2008SPIE.7014E..0DO}.  The active, usable pixels cover $\sim
    19419580$\% of the FOV.
     
    213214the data is used for the purpose of this article.
    214215
    215 The data processing steps are described in detail by Waters REF and
    216 Magnier REF.  In summary, individual images are detrended:
    217 non-linearity and bias corrections are applied, a dark current model
    218 is subtracted and flat-field corrections are applied.  The \yps-band
    219 images are also corrected for fringing: a master fringe pattern is
    220 scaled to match the observed fringing and subtracted.  Mask and
    221 variance image arrays are generated with the detrend analysis and
     216The data processing steps are described in detail by \cite{waters2017}
     217and \cite{magnier2017a,magnier2017b}.  In summary, individual images
     218are detrended: non-linearity and bias corrections are applied, a dark
     219current model is subtracted and flat-field corrections are applied.
     220The \yps-band images are also corrected for fringing: a master fringe
     221pattern is scaled to match the observed fringing and subtracted.  Mask
     222and variance image arrays are generated with the detrend analysis and
    222223carried forward at each stage of the IPP processing.  Source detection
    223224and photometry are performed for each chip independently.  As
     
    241242Astronomical objects are detected and characterized in the stacks
    242243images.  The details of the analysis of the sources in the stack
    243 images are discussed in Magnier et al REF, but in brief these include
     244images are discussed in \cite{magnier2017b}, but in brief these include
    244245PSF photometry, along with a range of measurements driven by the goals
    245246of understanding the galaxies in the images.  Because of the
     
    264265fluxes from the individual warp images are averaged, a reliable
    265266measurement of the faint source flux is determined.  The details of
    266 this analysis are described in detail in Magnier et al REF. 
     267this analysis are described in detail in Magnier et al
     268\cite{magnier2017b}.
    267269
    268270In this article, we discuss the photometric calibration of the
     
    278280Three somewhat distinct astrometric models are employed within the IPP
    279281at different stages.  The simplest model is defined independently for
    280 each chip: a simple TAN projection (Calabretta \& Griesen REF) is used
    281 to relate sky coordinates to a cartesian tangent-plane coordinate
    282 system.  A pair of low-order
     282each chip: a simple TAN projection as described by
     283\cite{2002AA...395.1077C} is used to relate sky coordinates to a
     284cartesian tangent-plane coordinate system.  A pair of low-order
    283285polynomials are used to relate the chip pixel coordinates to this
    284286tangent-plane coordinate system.  The transforming polynomials are of
     
    596598
    597599The photometric calibration of the DVO database starts with the
    598 ``ubercal'' analysis technique as described by \cite{2012ApJ...756..158S}.
    599 This analysis is performed by the group at Harvard, loading data from
    600 the \code{smf} files into their instance of the Large Scale Database
    601 (LSD, Juric REF), a system similar to DVO used to manage the
    602 detections and determine the calibrations.
     600``ubercal'' analysis technique as described by
     601\cite{2012ApJ...756..158S}.  This analysis is performed by the group
     602at Harvard, loading data from the \code{smf} files into their instance
     603of the Large Scale Database \citep[LSD,][]{2011AAS...21743319J}, a
     604system similar to DVO used to manage the detections and determine the
     605calibrations.
    603606
    604607Photometric nights are selected and all other exposures are ignored.
     
    648651field to match the photometry measured by \cite{2012ApJ...750...99T}
    649652on the reference photometric night of MJD 55744 (UT 02 July 2011).
    650 \cite{2015ApJ...815..117S} have re-examined the photometry of Calspec
    651 standards as observed by PS1.  They reject 2 of the 5 stars used by
    652 \cite{2012ApJ...750...99T} and add photometry of 2 additional stars.
     653\cite{2014ApJ...795...45S} and \cite{2015ApJ...815..117S} have
     654re-examined the photometry of Calspec standards \citep{Bohlin.1996} as
     655observed by PS1.  \cite{2014ApJ...795...45S} reject 2 of the 7 stars
     656used by \cite{2012ApJ...750...99T} and add photometry of 5 additional
     657stars.  \cite{2015ApJ...815..117S} further reject measurements of
     658Calspec standards obtained close to the center of the camera field of
     659view where the PSF size and shape changes very rapidly.  The result of
     660this analysis modifies the over system zero points by 20 - 35
     661millimags compared with the system determined by
     662\cite{2012ApJ...756..158S}.
    653663
    654664%% \note{The calspec spectrophotometry values have also been re-examined
     
    656666%%   determine new zero points for the PS1 system, which we have applied
    657667%%   (see below).}
     668
     669% http://iopscience.iop.org/article/10.1088/0004-637X/815/2/117/pdf
    658670
    659671\subsection{Applying the Ubercal Zero Points : Setphot}
     
    679691filter.  These static values are listed in Table~\ref{tab:zpts}.  When
    680692\code{setphot} was run, these static zero points have been adjusted by
    681 the calspec offsets listed in Table~\ref{tab:zpts} based on the
    682 analysis of CALSPEC standards by Scolnic et al REF.  These offsets
    683 bring the photometric system defined by the ubercal analysis into
    684 alignment with the Scolnic analysis of the PS1 observations of XXX
    685 calspec standard stars.  The value $M_{cal}$ is the offset needed by
    686 each exposure to match the ubercal value, or to bring the non-ubercal
    687 exposures into agreement with the rest of the exposures, as discussed
    688 below.  The flat-field information is encoded in a table of flat-field
    689 offsets as a function of time, filter, and camera position.  Each
    690 image which is part of the ubercal subset is marked with a bit in the
    691 field \code{Image.flags}: \code{ID_IMAGE_PHOTOM_UBERCAL = 0x00000200}
     693the Calspec offsets listed in Table~\ref{tab:zpts} based on the
     694analysis of Calspec standards by \cite{2015ApJ...815..117S}.  These
     695offsets bring the photometric system defined by the ubercal analysis
     696into alignment with \cite{2015ApJ...815..117S}.  The value $M_{cal}$
     697is the offset needed by each exposure to match the ubercal value, or
     698to bring the non-ubercal exposures into agreement with the rest of the
     699exposures, as discussed below.  The flat-field information is encoded
     700in a table of flat-field offsets as a function of time, filter, and
     701camera position.  Each image which is part of the ubercal subset is
     702marked with a bit in the field \code{Image.flags}:
     703\code{ID_IMAGE_PHOTOM_UBERCAL = 0x00000200}
    692704
    693705%% \note{give airmass formula for completeness?}.
     
    737749
    738750Relative photometry is used to determine the zero points of the
    739 exposures which were not included in the ubercal analysis.  The relative photometry analysis has been desribed in the
    740 past in Magnier et al 2013 REF.  We review that analysis here, along
    741 with specific updates for PV3. 
     751exposures which were not included in the ubercal analysis.  The
     752relative photometry analysis has been described in the past by
     753\cite{2013ApJS..205...20M}.  We review that analysis here, along with
     754specific updates for PV3.
    742755
    743756As described above, the instrumental magnitude and the calibrated magnitude
     
    12861299
    12871300\bibliographystyle{apj}
    1288 %\bibliography{lib}{}
    1289 \input{calibration.bbl}
     1301\bibliography{lib}{}
     1302%\input{calibration.bbl}
    12901303
    12911304\end{document}
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