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|
#!/bin/sh
##
## This script generate a series of source and background spectra
## for radial spectra profile analysis, and generate two XSPEC
## xcm scripts for ease of use:
## * 'xspec_deproj.xcm': uses 'projct*wabs*apec' model for deprojection
## spectra analysis to acquire the 3D temperature/abundance profiles.
## * 'xspec_projected.xcm': uses 'wabs*apec' model for projected
## spectra analysis.
## The input regions may be a series of 'annulus' or 'pie'.
##
## This script invokes 'specextract' to extract the spectra and
## to generate the RMFs and ARFs.
## Also the 'dmgroup' is used to group the spectra.
##
## Background:
## Now 3 types of background format supported:
## * blanksky.fits: will extract the background spectrum from the
## blanksky.fits of the same region as the source spectrum;
## * lbkg.reg: will use this region file to extract the background from
## the source evt2 fits file (local background);
## * bkg.pi: will directoryly use the provided spectrum PI file. Just
## make a copy of this spectrum for each source spectrum, and adjust
## its 'BACKSCAL' to match the corresponding source spectrum.
## NOTE: the 'BACKSCAL' of the background spectrum will be adjusted for
## all above 3 conditions.
##
## Reference:
## [1] Chandra spectrum analysis
## http://cxc.harvard.edu/ciao/threads/extended/
## [2] Ahelp: specextract
## http://cxc.harvard.edu/ciao/ahelp/specextract.html
## [3] CIAO v4.4 region bugs
## http://cxc.harvard.edu/ciao/bugs/regions.html#bug-12187
## [4] CIAO 4.6 Release Notes
## http://cxc.cfa.harvard.edu/ciao/releasenotes/ciao_4.6_release.html
##
## Author: Weitian LI <liweitianux@gmail.com>
## Created: 2012-07-24
##
## Change logs:
## 2017-02-26, Weitian LI
## * Use 'manifest.py', 'results.py', and 'renorm_spectrum.py'
## * Simplify 'specextract' parameters handling
## * Other cleanups
## v10.0, 2015/06/03, Aaron LI
## * Copy needed pfiles to current working directory, and
## set environment variable $PFILES to use these first.
## * Replace 'ls' with '\ls'
## v9.0, 2015/02/12, Weitian LI
## * updated parameter settings for 'specextract' to match
## specextract revision 2013-12.
## * updated xcm script generation to use either '.wrmf & .warf'
## or '.rmf & .arf' extensions. (specextract only use .rmf & .arf
## extensions for response files since revision 2014-12)
## * removed 'trap date INT'
## * removed 'export GREP_OPTIONS=""' and replaced 'grep' with '\grep'
## * re-arranged descriptions & change logs
## v8.4, 2014/11/13, Weitian LI
## * replaced 'grppha' with 'dmgroup' to group spectra
## (dmgroup will add history to fits file, while grppha NOT)
## * re-arranged change logs
## v8.3, 2014/11/08, Weitian LI
## * fix problem with 'P_PBKFILE' about the single colon
## v8.2, 2014/07/29, Weitian LI
## * fix 'pbkfile' parameters for CIAO-4.6
## v8.1, 2014/07/29, Weitian LI
## * fix variable 'ABUND=grsa'
## v8, 2012/08/14, Weitian LI
## * use `cmdline' args instead of `cfg file'
## * add `logging' function
## v7, 2012/08/10, Weitian LI
## * account blanksky, local bkg, specified bkg
## * change name to `ciao_deproj_spectra_v*.sh'
## * add `error status'
## * Imporve ${CFG_FILE}
## * Imporve comments
## v6, 2012/08/08, Junhua GU
## * Modified to using config file to pass parameters
## * Use grppha to rebin the spectrum
## v5, 2012/08/05
## * XFLT0005 not modified as pie end angle
## * added `background renormalization'
##
## usage, help {{{
case "$1" in
-[hH]*|--[hH]*)
printf "Usage:\n"
printf " `basename $0` reg=<radial_reg> [ bkgd=<blank_evt | lbkg_reg | bkg_spec> evt=<evt2_clean> nh=<nH> z=<redshift> [ grouptype=<NUM_CTS|BIN> grouptypeval=<number> binspec=<binspec> log=<log_file> ]\n"
printf "\nNotes:\n"
printf " If grouptype=NUM_CTS, then grouptypeval required.\n"
printf " If grouptype=BIN, then binspec required.\n"
exit ${ERR_USG}
;;
esac
## usage, help }}}
## default parameters {{{
# default `event file' which used to match `blanksky' files
DFT_EVT=$(manifest.py -b getpath -r evt2_clean)
# default `radial region file'
DFT_REG_IN="rspec.reg"
# default parameters for 'dmgroup'
DFT_GROUPTYPE="NUM_CTS"
DFT_GROUPTYPEVAL="20"
#DFT_GROUPTYPE="BIN"
DFT_BINSPEC="1:128:2,129:256:4,257:512:8,513:1024:16"
# default `log file'
DFT_LOGFILE="deproj_spectra_`date '+%Y%m%d'`.log"
# default output xspec scripts
XSPEC_DEPROJ="xspec_deproj.xcm"
XSPEC_PROJTD="xspec_projected.xcm"
ASOL=$(manifest.py -b -s "," getpath -r asol)
BPIX=$(manifest.py -b getpath -r bpix)
MSK=$(manifest.py -b getpath -r msk)
## default parameters }}}
## error code {{{
ERR_USG=1
ERR_DIR=11
ERR_EVT=12
ERR_BKG=13
ERR_REG=14
ERR_ASOL=21
ERR_BPIX=22
ERR_PBK=23
ERR_MSK=24
ERR_BKGTY=31
ERR_SPEC=32
ERR_GRPTYPE=41
## error code }}}
## functions {{{
# process commandline arguments
# cmdline arg format: `KEY=VALUE'
getopt_keyval() {
until [ -z "$1" ]
do
key=${1%%=*} # extract key
val=${1#*=} # extract value
keyval="${key}=\"${val}\""
echo "## getopt: eval '${keyval}'"
eval ${keyval}
shift # shift, process next one
done
}
## functions end }}}
## parameters {{{
# process cmdline args using `getopt_keyval'
getopt_keyval "$@"
## check log parameters {{{
if [ ! -z "${log}" ]; then
LOGFILE="${log}"
else
LOGFILE=${DFT_LOGFILE}
fi
printf "## use logfile: \`${LOGFILE}'\n"
[ -e "${LOGFILE}" ] && mv -fv ${LOGFILE} ${LOGFILE}_bak
TOLOG="tee -a ${LOGFILE}"
## log }}}
# check given parameters
# check evt file
if [ -r "${evt}" ]; then
EVT=${evt}
elif [ -r "${DFT_EVT}" ]; then
EVT=${DFT_EVT}
fi
printf "## use evt file: \`${EVT}'\n" | ${TOLOG}
# check given region file(s)
if [ -r "${reg}" ]; then
REG_IN="${reg}"
elif [ -r "${DFT_REG_IN}" ]; then
REG_IN=${DFT_REG_IN}
else
read -p "> radial spec region file: " REG_IN
if [ ! -r "${REG_IN}" ]; then
printf "ERROR: cannot access given \`${REG_IN}' region file\n"
exit ${ERR_REG}
fi
fi
printf "## use radial reg: \`${REG_IN}'\n" | ${TOLOG}
# check given bkgd, determine background {{{
if [ -z "${bkgd}" ]; then
BKGD=$(manifest.py -b getpath -r bkg_spec)
else
BKGD=${bkgd}
fi
if [ ! -r "${BKGD}" ]; then
printf "ERROR: cannot access given \`${BKGD}'\n"
exit ${ERR_BKG}
fi
printf "## use bkgd: \`${BKGD}'\n" | ${TOLOG}
# determine bkg type: blanksky, lbkg_reg, bkg_spec ?
# according to file type first: text / FITS
# if FITS, then get values of `HDUCLAS1' and `OBJECT'
if file -bL ${BKGD} | \grep -qi 'text'; then
printf "## given \`${BKGD}' is a \`text file'\n"
printf "## use it as local bkg region file\n"
printf "## use *LOCAL BKG SPEC*\n" | ${TOLOG}
# just set flags, extract spectrum later
USE_LBKG_REG=YES
USE_BLANKSKY=NO
USE_BKG_SPEC=NO
elif file -bL ${BKGD} | \grep -qi 'FITS'; then
printf "## given \`${BKGD}' is a \`FITS file'\n"
# get FITS header keyword
HDUCLAS1=`dmkeypar ${BKGD} HDUCLAS1 echo=yes`
if [ "${HDUCLAS1}" = "EVENTS" ]; then
# event file
printf "## given file is \`event'\n"
# check if `blanksky' or `stowed bkg'
BKG_OBJ=`dmkeypar ${BKGD} OBJECT echo=yes`
if [ "${BKG_OBJ}" = "BACKGROUND DATASET" ] || [ "${BKG_OBJ}" = "ACIS STOWED" ]; then
# valid bkg evt file
printf "## given FITS file is a valid bkgrnd file\n"
printf "## use *BLANKSKY*\n" | ${TOLOG}
USE_BLANKSKY=YES
USE_LBKG_REG=NO
USE_BKG_SPEC=NO
# specify `BLANKSKY'
BLANKSKY=${BKGD}
else
# invalid bkg evt file
printf "ERROR: invalid bkg evt file given\n"
exit ${ERR_BKGTY}
fi
elif [ "${HDUCLAS1}" = "SPECTRUM" ]; then
# spectrum file
printf "## given file is \`spectrum'\n"
printf "## use *BKG SPECTRUM*\n" | ${TOLOG}
USE_BKG_SPEC=YES
USE_BLANKSKY=NO
USE_LBKG_REG=NO
# specify `BKG_SPEC'
BKG_SPEC=${BKGD}
else
# other type
printf "ERROR: other type FITS given\n"
exit ${ERR_BKGTY}
fi
else
printf "ERROR: given \`${BKGD}' type UNKNOWN\n"
exit ${ERR_BKGTY}
fi
# bkgd }}}
# check given nH
if [ -z "${nh}" ]; then
N_H=$(results.py -b get nh)
else
N_H=${nh}
fi
printf "## use nH: ${N_H}\n" | ${TOLOG}
# check given redshift
if [ -z "${z}" ]; then
REDSHIFT=$(results.py -b get z)
else
REDSHIFT=${z}
fi
printf "## use redshift: ${REDSHIFT}\n" | ${TOLOG}
# check given dmgroup parameters: grouptype, grouptypeval, binspec
if [ -z "${grouptype}" ]; then
GROUPTYPE="${DFT_GROUPTYPE}"
elif [ "x${grouptype}" = "xNUM_CTS" ] || [ "x${grouptype}" = "xBIN" ]; then
GROUPTYPE="${grouptype}"
else
printf "ERROR: given grouptype \`${grouptype}' invalid.\n"
exit ${ERR_GRPTYPE}
fi
printf "## use grouptype: \`${GROUPTYPE}'\n" | ${TOLOG}
if [ ! -z "${grouptypeval}" ]; then
GROUPTYPEVAL="${grouptypeval}"
else
GROUPTYPEVAL="${DFT_GROUPTYPEVAL}"
fi
printf "## use grouptypeval: \`${GROUPTYPEVAL}'\n" | ${TOLOG}
if [ ! -z "${binspec}" ]; then
BINSPEC="${binspec}"
else
BINSPEC="${DFT_BINSPEC}"
fi
printf "## use binspec: \`${BINSPEC}'\n" | ${TOLOG}
# rootname for output files
[ "x${ROOTNAME}" = "x" ] && ROOTNAME="${REG_IN%.reg}"
printf "## use rootname: \`${ROOTNAME}'\n" | ${TOLOG}
## parameters }}}
## check needed files {{{
# check the validity of *pie* regions
printf "check pie reg validity ...\n"
INVALID=`cat ${REG_IN} | \grep -i 'pie' | awk -F, '{ print $6 }' | tr -d ')' | awk '$1 > 360'`
if [ "x${INVALID}" != "x" ]; then
printf "WARNING: some pie region's END_ANGLE > 360\n" | ${TOLOG}
printf " CIAO v4.4 tools may run into trouble\n"
fi
## check files }}}
## prepare parameter files (pfiles) {{{
CIAO_TOOLS="dmstat dmkeypar dmhedit specextract dmextract dmgroup"
# Copy necessary pfiles for localized usage
for tool in ${CIAO_TOOLS}; do
pfile=`paccess ${tool}`
[ -n "${pfile}" ] && punlearn ${tool} && cp -Lvf ${pfile} .
done
# Modify environment variable 'PFILES' to use local pfiles first
export PFILES="./:${PFILES}"
## pfiles }}}
## process local background {{{
if [ "${USE_LBKG_REG}" = "YES" ]; then
BKG_EVT=${EVT}
LBKG_REG=${BKGD}
LBKG_REG_CIAO="_tmp_${LBKG_REG}"
cp -fv ${LBKG_REG} ${LBKG_REG_CIAO}
## check background region (CIAO v4.4 bug) {{{
printf "check background region ...\n"
INVALID=`\grep -i 'pie' ${LBKG_REG_CIAO} | awk -F, '{ print $6 }' | tr -d ')' | awk '$1 > 360'`
if [ "x${INVALID}" != "x" ]; then
printf "WARNING: fix for pie region:\n"
cat ${LBKG_REG_CIAO}
for angle in ${INVALID}; do
A_OLD=`echo ${angle} | sed 's/\./\\\./'`
A_NEW=`echo ${angle}-360 | bc -l | sed 's/\./\\\./'`
sed -i'' "s/${A_OLD}\ *)/${A_NEW})/" ${LBKG_REG_CIAO}
done
printf " -->"
cat ${LBKG_REG_CIAO}
printf "======================\n"
fi
## background region }}}
## extract local background spectrum
printf "extract local background spectrum ...\n"
BKG_SPEC="${LBKG_REG%.reg}.pi"
punlearn dmextract
dmextract infile="${BKG_EVT}[sky=region(${LBKG_REG_CIAO})][bin pi]" \
outfile=${BKG_SPEC} wmap="[bin det=8]" clobber=yes
rm -fv ${LBKG_REG_CIAO}
printf "renormalizing the spectrum later ...\n"
fi
## local bkg }}}
## modify the region file, remove the commented and blank lines {{{
REG_NEW="_new.reg"
REG_TMP="_tmp.reg"
[ -f ${REG_NEW} ] && rm -fv ${REG_NEW}
[ -f ${REG_TMP} ] && rm -fv ${REG_TMP}
cat ${REG_IN} | sed 's/#.*$//' | \grep -Ev '^\s*$' > ${REG_NEW}
## REG_IN }}}
## `specextract' to extract spectrum {{{
LINES="`wc -l ${REG_NEW} | cut -d' ' -f1`"
printf "\n======================================\n"
printf "TOTAL *${LINES}* regions to process ......\n"
for i in `seq ${LINES}`; do
printf "\n==============================\n"
printf ">>> PROCESS REGION ${i} ...\n"
## generate corresponding `region' file
rm -f ${REG_TMP} ${REG_CIAO} 2> /dev/null
head -n ${i} ${REG_NEW} | tail -n 1 > ${REG_TMP}
REG_CIAO="${REG_TMP%.reg}_ciao.reg"
cp -fv ${REG_TMP} ${REG_CIAO}
## check the validity of *pie* regions {{{
INVALID=`\grep -i 'pie' ${REG_TMP} | awk -F, '{ print $6 }' | tr -d ')' | awk '$1 > 360'`
if [ "x${INVALID}" != "x" ]; then
printf "WARNING: fix for pie region:\n"
cat ${REG_CIAO}
A_OLD=`echo ${INVALID} | sed 's/\./\\\./'`
A_NEW=`echo ${INVALID}-360 | bc -l | sed 's/\./\\\./'`
sed -i'' "s/${A_OLD}\ *)/${A_NEW})/" ${REG_CIAO}
printf " -->\n"
cat ${REG_CIAO}
fi
# check pie region }}}
## use `specextract' to extract spectra {{{
# NOTE: set `binarfwmap=2' to save the time for generating `ARF'
# I have tested that this bin factor has little impact on the results.
# NO background response files
# NO background spectrum (generate by self)
# NO spectrum grouping (group by self using `dmgroup')
punlearn specextract
specextract infile="${EVT}[sky=region(${REG_CIAO})]" \
outroot="r${i}_${ROOTNAME}" bkgfile="" asp="${ASOL}" \
mskfile="${MSK}" badpixfile="${BPIX}" \
correctpsf=no weight=yes weight_rmf=yes \
energy="0.3:11.0:0.01" channel="1:1024:1" \
bkgresp=no combine=no binarfwmap=2 \
grouptype=NONE binspec=NONE \
clobber=yes verbose=2
## specextract }}}
RSPEC_PI="r${i}_${ROOTNAME}.pi"
RSPEC_BKG_PI="${RSPEC_PI%.pi}_bkg.pi"
## background spectrum {{{
## generate the blanksky bkg spectrum by self
if [ "${USE_BLANKSKY}" = "YES" ]; then
# use blanksky as background file
printf "extract blanksky bkg spectrum ...\n"
punlearn dmextract
dmextract infile="${BLANKSKY}[sky=region(${REG_CIAO})][bin pi]" \
outfile=${RSPEC_BKG_PI} wmap="[bin det=8]" clobber=yes
elif [ "${USE_LBKG_REG}" = "YES" ] || [ "${USE_BKG_SPEC}" = "YES" ]; then
# use *local background* or specified background spectrum
cp -fv ${BKG_SPEC} ${RSPEC_BKG_PI}
fi
## background }}}
## bkg renormalization {{{
printf "Renormalize background ...\n"
renorm_spectrum.py -r ${RSPEC_PI} ${RSPEC_BKG_PI}
## bkg renorm }}}
## group spectrum {{{
# use 'dmgroup' instead of 'grppha', because 'dmgroup' will add
# command history to FITS header (maybe useful for later reference).
printf "group spectrum \`${RSPEC_PI}' using \`dmgroup'\n"
RSPEC_GRP_PI="${RSPEC_PI%.pi}_grp.pi"
punlearn dmgroup
dmgroup infile="${RSPEC_PI}" outfile="${RSPEC_GRP_PI}" \
grouptype="${GROUPTYPE}" grouptypeval=${GROUPTYPEVAL} \
binspec="${BINSPEC}" xcolumn="CHANNEL" ycolumn="COUNTS" \
clobber=yes
## group }}}
## `XFLT####' keywords for XSPEC model `projct' {{{
printf "update file headers ...\n"
punlearn dmhedit
if \grep -qi 'pie' ${REG_TMP}; then
R_OUT="`awk -F',' '{ print $4 }' ${REG_TMP} | tr -d ')'`"
A_BEGIN="`awk -F',' '{ print $5 }' ${REG_TMP} | tr -d ')'`"
A_END="`awk -F',' '{ print $6 }' ${REG_TMP} | tr -d ')'`"
# RSPEC_PI
dmhedit infile=${RSPEC_PI} filelist=NONE operation=add \
key="XFLT0001" value=${R_OUT}
dmhedit infile=${RSPEC_PI} filelist=NONE operation=add \
key="XFLT0002" value=${R_OUT}
dmhedit infile=${RSPEC_PI} filelist=NONE operation=add \
key="XFLT0003" value=0
dmhedit infile=${RSPEC_PI} filelist=NONE operation=add \
key="XFLT0004" value=${A_BEGIN}
dmhedit infile=${RSPEC_PI} filelist=NONE operation=add \
key="XFLT0005" value=${A_END}
# RSPEC_GRP_PI
dmhedit infile=${RSPEC_GRP_PI} filelist=NONE operation=add \
key="XFLT0001" value=${R_OUT}
dmhedit infile=${RSPEC_GRP_PI} filelist=NONE operation=add \
key="XFLT0002" value=${R_OUT}
dmhedit infile=${RSPEC_GRP_PI} filelist=NONE operation=add \
key="XFLT0003" value=0
dmhedit infile=${RSPEC_GRP_PI} filelist=NONE operation=add \
key="XFLT0004" value=${A_BEGIN}
dmhedit infile=${RSPEC_GRP_PI} filelist=NONE operation=add \
key="XFLT0005" value=${A_END}
elif \grep -qi 'annulus' ${REG_TMP}; then
R_OUT="`awk -F',' '{ print $4 }' ${REG_TMP} | tr -d ')'`"
# RSPEC_PI
dmhedit infile=${RSPEC_PI} filelist=NONE operation=add \
key="XFLT0001" value=${R_OUT}
dmhedit infile=${RSPEC_PI} filelist=NONE operation=add \
key="XFLT0002" value=${R_OUT}
dmhedit infile=${RSPEC_PI} filelist=NONE operation=add \
key="XFLT0003" value=0
# RSPEC_GRP_PI
dmhedit infile=${RSPEC_GRP_PI} filelist=NONE operation=add \
key="XFLT0001" value=${R_OUT}
dmhedit infile=${RSPEC_GRP_PI} filelist=NONE operation=add \
key="XFLT0002" value=${R_OUT}
dmhedit infile=${RSPEC_GRP_PI} filelist=NONE operation=add \
key="XFLT0003" value=0
else
printf "*** WARNING: region file NOT MATCH!!\n"
fi
## `XFLT####' }}}
done # end *for*, `specextract'
## `specextract' }}}
## clean
printf "clean ...\n"
rm -f ${REG_TMP} ${REG_CIAO} 2> /dev/null
###########################################################
## generate a script file for XSPEC ##
###########################################################
printf "generate scripts for XSPEC ...\n"
## xspec script (deproj) {{{
printf "XSPEC script for deprojection analysis\n"
[ -e ${XSPEC_DEPROJ} ] && rm -fv ${XSPEC_DEPROJ}
cat >> ${XSPEC_DEPROJ} << _EOF_
#
# XSPEC
# radial spectra (deprojection analysis)
# model projct*wabs*apec
#
# generated by script: \``basename $0`'
# `date`
statistic chi
# load data
_EOF_
for i in `seq ${LINES}`; do
RSPEC="r${i}_${ROOTNAME}"
[ -r "${RSPEC}.wrmf" ] && RMF="${RSPEC}.wrmf" || RMF="${RSPEC}.rmf"
[ -r "${RSPEC}.warf" ] && ARF="${RSPEC}.warf" || ARF="${RSPEC}.arf"
cat >> ${XSPEC_DEPROJ} << _EOF_
data ${i}:${i} ${RSPEC}_grp.pi
response 1:${i} ${RMF}
arf 1:${i} ${ARF}
backgrnd ${i} ${RSPEC}_bkg.pi
_EOF_
done
cat >> ${XSPEC_DEPROJ} << _EOF_
# filter needed energy range
ignore bad
ignore **:0.0-0.7,7.0-**
method leven 1000 0.01
# change abundance standard
abund grsa
xsect bcmc
cosmo 70 0 0.73
xset delta 0.01
systematic 0
# auto answer
query yes
# plot related
setplot energy
# model to use
model projct*wabs*apec
0
0
0
${N_H} -0.001 0 0 100000 1e+06
1 0.01 0.008 0.008 64 64
0.5 0.001 0 0 5 5
${REDSHIFT} -0.01 -0.999 -0.999 10 10
1 0.01 0 0 1e+24 1e+24
_EOF_
INPUT_TIMES=`expr ${LINES} - 1`
for i in `seq ${INPUT_TIMES}`; do
cat >> ${XSPEC_DEPROJ} << _EOF_
= 1
= 2
= 3
= 4
1 0.01 0.008 0.008 64 64
0.5 0.001 0 0 5 5
= 7
1 0.01 0 0 1e+24 1e+24
_EOF_
done
## xspec script }}}
###########################################################
## xspec script (projected) {{{
printf "XSPEC script for projected analysis\n"
[ -e ${XSPEC_PROJTD} ] && rm -fv ${XSPEC_PROJTD}
cat >> ${XSPEC_PROJTD} << _EOF_
#
# XSPEC
# radial spectra (projected analysis)
# model wabs*apec
#
# generated by script: \``basename $0`'
# `date`
statistic chi
# load data
_EOF_
for i in `seq ${LINES}`; do
RSPEC="r${i}_${ROOTNAME}"
[ -r "${RSPEC}.wrmf" ] && RMF="${RSPEC}.wrmf" || RMF="${RSPEC}.rmf"
[ -r "${RSPEC}.warf" ] && ARF="${RSPEC}.warf" || ARF="${RSPEC}.arf"
cat >> ${XSPEC_PROJTD} << _EOF_
data ${i}:${i} ${RSPEC}_grp.pi
response 1:${i} ${RMF}
arf 1:${i} ${ARF}
backgrnd ${i} ${RSPEC}_bkg.pi
_EOF_
done
cat >> ${XSPEC_PROJTD} << _EOF_
# filter needed energy range
ignore bad
ignore **:0.0-0.7,7.0-**
method leven 1000 0.01
# change abundance standard
abund grsa
xsect bcmc
cosmo 70 0 0.73
xset delta 0.01
systematic 0
# auto answer
query yes
# plot related
setplot energy
# model to use
model wabs*apec
${N_H} -0.001 0 0 100000 1e+06
1 0.01 0.008 0.008 64 64
0.5 0.001 0 0 5 5
${REDSHIFT} -0.01 -0.999 -0.999 10 10
1 0.01 0 0 1e+24 1e+24
_EOF_
INPUT_TIMES=`expr ${LINES} - 1`
for i in `seq ${INPUT_TIMES}`; do
cat >> ${XSPEC_PROJTD} << _EOF_
= 1
1 0.01 0.008 0.008 64 64
0.5 0.001 0 0 5 5
= 4
1 0.01 0 0 1e+24 1e+24
_EOF_
done
printf "DONE\n"
## xspec script }}}
###########################################################
printf "ALL FINISHED\n"
# vim: set ts=8 sw=4 tw=0 fenc=utf-8 ft=sh: #
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