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G. F. Zharkov 《Central European Journal of Physics》2004,2(1):220-240
The self-consistent solutions of the nonlinear Ginzburg-Landau equations, which describe the behavior of a superconducting
mesoscopic cylinder in an axial magnetic field H (provided there are no vortices inside the cylinder), are studied. Different, vortex-free states (M-, e-, d-, p-), which exist in a superconducting cylinder, are described. The critical fields (H
1, H
2, H
p
, H
i
, H
r
), at which the first or second order phase transitions between different states of the cylinder occur, are found as functions
of the cylinder radius R and the GL-parameter
. The boundary
, which divides the regions of the first and second order (s, n)-transitions in the icreasing field, is found. It is found that at R→∞ the critical value, is
. The hysteresis phenomena, which appear when the cylinder passes from the normal to superconducting state in the decreasing
field, are described. The connection between the self-consistent results and the linearized theory is discussed. It is shown
that in the limiting case
and R ≫ λ (λ is the London penetration length) the self-consistent solution (which correponds to the socalled metastable p-state) coincides with the analitic solution found from the degenerate Bogomolnyi equations. The reason for the existence
of two critical GL-parameters
and
in, bulk superconductors is discussed.
An erratum to this article is available at. 相似文献
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