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tests:collision:gc1_archive

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Results from GC1 workshop (Surrey)

Challenge 1: Equal mass clusters in a tidal field

All Stars 1000 stars
Cluster Method $M$$r_{\rm c}$$r_{\rm h}$$r_{\rm J}$ $M$$r_{\rm c}$$r_{\rm h}$$r_{\rm J}$
1 Isotropic King (linear dens) $0.919$ $1.190$
Isotropic King (log dens) $0.046$ $1.61$
Anisotropic Michie King $0.027$ $1.55$
$f_\nu$ $1.082$ $1.134$
2 Isotropic King (linear dens) $0.875$ $1.322$
Isotropic King (log dens) $0.04$ $1.752$
Anisotropic Michie King $0.026$ $1.618$
$f_\nu$ $1.023$ $1.314$
3 Isotropic King (linear dens) $0.227$ $6.839$
Isotropic King (log dens) $0.28$ $7.655$
Anisotropic Michie King
$f_\nu$ $0.259$ $8.225$
Cluster Plots
1 Isotropic King vs $f_\nu$
Anisotropic Michie King
2 Isotropic King vs $f_\nu$
Anisotropic Michie King
3 Isotropic King vs $f_\nu$
Anisotropic Michie King
tests/collision/gc1_archive.1413990973.txt.gz · Last modified: 2014/10/22 15:16 by v.henault-brunet