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SKID: Finding Gravitationally Bound Groups in N-body Simulations

Posted: Tue Feb 15, 2011 5:10 pm
by owlice
[c]SKID: Finding Gravitationally Bound Groups in N-body Simulations[/c][/b]
Abstract: SKID finds gravitationally bound groups in N-body simulations. The SKID program will group different types of particles depending on the type of input binary file. This could be either dark matter particles, gas particles, star particles or gas and star particles depending on what is in the input tipsy binary file. Once groups with at least a certain minimum number of members have been determined, SKID will remove particles which are not bound to the group. SKID must use the original positions of all the particles to determine whether or not particles are bound. This procedure which we call unbinding, is again dependent on the type of grouping we are dealing with. There are two cases, one for dark matter only or star particles only (case 1 unbinding), the other for inputs including gas (also stars in a dark matter environment this is case 2 unbinding).

Skid version 1.3 is a much improved version of the old denmax-1.1 version. The new name was given to avoid confusion with the DENMAX program of Gelb & Bertschinger, and although it is based on the same idea it represents a substantial evolution in the method.

Credit: N-Body Shop

Site: http://faculty.washington.edu/trq/hpcc/tools/skid.html
http://adsabs.harvard.edu/abs/1997NewA....2...91G

Bibcode: 2011ascl.soft02020N

ID: ascl:1102.020