Abstract
The Monte Carlo method was used to study the relaxation processes of the trapped magnetic flux in a micron-wide superconducting bridge. Calculations are performed for typical parameters of the high-temperature superconductor YB2Cu3O7-x. The cases of the presence of only its own pinning and artificial in the form of submicron antidot holes have been investigated. It is shown that the presence of holes reduces the trapped magnetic flux. It is also shown that the dependence of the trapped flow on time for a micron bridge does not agree with the collective creep model, and the relaxation rate increases with temperature.
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