[metadata] 
simulation-type = BNS
mass-scale = 1

documentation = readme.txt 
publication = arXiv:1306.1608

submitter-email = Bruno Giacomazzo <bruno.giacomazzo@unitn.it> 
authors-email = Bruno Giacomazzo <bruno.giacomazzo@unitn.it>, Rosalba Perna <rosalba@jilau1.Colorado.EDU>

#Use convention that body 1 is BH in NSBH 
#Use convention that body 1 is larger NS in NSNS 
mass1 = 1.22
mass2 = 1.22
# calculate mass-ratio from mass specification as needed 
# to avoid issues of convention conflict 
spin1x = 0.0 
spin1y = 0.0 
spin1z = 0.0 
spin2x = 0.0 
spin2y = 0.0 
spin2z = 0.0

# simulation setup and physics
gravity-type = NR
fluid-type = GRHD
symmetries = pi-symmetry and reflection symmetry
eos-name = IdealFluid
eos-reference = http://adsabs.harvard.edu/cgi-bin/bib_query?arXiv:1306.1608
eos-details = Gamma=2.75, K=30000
eos-details-reference = http://adsabs.harvard.edu/cgi-bin/bib_query?arXiv:1306.1608
neutrino-treatment = None
neutrino-treatment-reference = None

# waveform properties
inspiral = N # suitable target for inspiral search?
freq-Start-22 = 0.0027 # in 1/M_sun = 203.025447 kHz
data-type = NR
[zerillit-data]
2,2 = Qeven_Re_Detector_Radius_400.00_l2_m2.asc
2,2 = Qeven_Im_Detector_Radius_400.00_l2_m2.asc
2,2 = Qodd_Re_Detector_Radius_400.00_l2_m2.asc
2,2 = Qodd_Im_Detector_Radius_400.00_l2_m2.asc
[psi4t-data]
2,2 = mp_psi4_l2_m2_r400.00.asc
2,-2 = mp_psi4_l2_m-2_r400.00.asc