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Manuscript Title: A parallel code for the numerical simulation of flux tubes in superconductors and cosmic strings.
Authors: R. Strilka
Program title: vxmkgo2D
Catalogue identifier: ACPD_v1_0
Distribution format: gz
Journal reference: Comput. Phys. Commun. 78(1993)141
Programming language: Fortran.
Computer: CONNECTION MACHINE CM2.
Operating system: UNIX.
RAM: 2000K words
Keywords: Particle physics, Elementary, Phenomenological model, Line-vortices, Superconductors, Cosmic-strings, Parallel computing, Connection machine.
Classification: 11.6.

Nature of problem:
Vortices appear in a wide variety of physical phenomena. Vortices in the Ginzburg-Landau model (phenomenological theory of superconductivity) and in Grand Unified Theories of elementary particle interactions (in which case they are called cosmic strings) share a common theoretical background. Understanding the dynamical interactions of parallel line- vortices is important to both fields.

Solution method:
We derive Hamilton's equations by employing techniques from lattice gauge theories. A leap-frog algorithm is used to integrate the equations of motion.

Running time:
About 5 minutes.