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The results shown on this page use Jas4pp data-analysis package.
Click here to show how to install it
Click here to show how to install it
wget http://atlaswww.hep.anl.gov/asc/jas4pp/download/current.php -O jas4pp.tgz tar -zvxf jas4pp.tgz cd jas4pp source ./setup.sh # takes 5 sec for first-time optimization
You can study this the geometry of FCChh-v4 detector using sifcch4 link. This geometry corresponds to rfull006 tag SLCIO files.
We will download samples in directories dataNgev using reg. expressions. We will use 2 threads and 100 files (if available) from each sample.
hs-get pgun_pi_1to10000gev%rfull006 data1gev 2 100 pi1gev # 1 GeV sample hs-get pgun_pi_1to10000gev%rfull006 data10gev 2 100 pi10gev # 10 GeV sample hs-get pgun_pi_1to10000gev%rfull006 data100gev 2 100 pi100gev # 100 GeV sample hs-get pgun_pi_1to10000gev%rfull006 data1000gev 2 100 pi1000gev # 1000 GeV sample hs-get pgun_pi_1to10000gev%rfull006 data10000gev 2 100 pi10000gev # 10000 GeV sample
Run a Python script given here: pgun1.py. To process these samples, run this sequence. Each scripts creates a PDF file with the image.
fpad pgun1.py data1gev fpad pgun1.py data10gev fpad pgun1.py data100gev fpad pgun1.py data1000gev fpad pgun1.py data10000gev
A typical plot for 100 GeV single pion is shown here
Find more single particle samples using the tag rfull006.