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star_cluster.sh
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star_cluster.sh
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# use mcluster to generate a star cluster with the initial condtion: N=1000 Kroupa (2001) IMF, 95% binary (Kroupa 1995 a,b Sana 2012 ..., see mcluster manual)
# The initial condition for NBODY6++GPU is created with -C 5, this is used to generated initial condtion for PeTar
mcluster -N 1000 -b 0.95 -C 5 -u 1 >mc.log
# use petar.init to create initial data for petar.
# the mcluster option '-u 1' generate data in astronomical unit (Msun, pc, km/s), but petar requires a self-consistent unit of velocity: pc/Myr, '-v kms2pcmyr' will do this.
petar.init -v kms2pcmyr -f input test.dat.10
# Use PeTar to execute the simulation.
# Use '-t 100.0' to run the simulation for 100 Myr.
# Use '-o 5' to generate output snapshots every 5 Myr.
# Use '-u 1' to set the units to astronomical units (Msun, pc, pc/Myr).
# Use '-b 500' to specify the number of primordial binaries as 500.
# By default, OpenMP utilizes all CPU threads. If you wish to use a specific number of threads, please add 'OMP_NUM_THREADS=[number of threads]'."
OMP_STACKSIZE=128M petar -u 1 -b 500 -t 100.0 -o 5.0 input &>output
# after mode finished, gether the output data and do post-data process to detect binaries, obtain Lagrangian and core radii and corresponding properties.
# To maintain consistent units during post-processing, use '-G 0.00449830997959438' to set the gravitational constant to astronomical units.
petar.data.gether data
petar.data.process -G 0.00449830997959438 data.snap.lst