1997
DOI: 10.1103/physrevb.55.11793
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Paramagnetic Meissner effect from the self-consistent solution of the Ginzburg-Landau equations

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Cited by 195 publications
(215 citation statements)
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“…The measured superconducting phase boundary T c ͑H͒ is in good agreement with the T c ͑H͒ line found from the LGLE. The superconducting state in microcylinders and disks in an applied magnetic field nucleates in the form of the giant vortex state (GVS) [1][2][3][4]. The phase boundary in the H-T plane [critical temperature vs field T c ͑H͒] shows oscillations corresponding to the cusplike T c ͑H͒ line formed by the states with different orbital quantum numbers.…”
Section: (Received 24 July 2000)mentioning
confidence: 99%
See 1 more Smart Citation
“…The measured superconducting phase boundary T c ͑H͒ is in good agreement with the T c ͑H͒ line found from the LGLE. The superconducting state in microcylinders and disks in an applied magnetic field nucleates in the form of the giant vortex state (GVS) [1][2][3][4]. The phase boundary in the H-T plane [critical temperature vs field T c ͑H͒] shows oscillations corresponding to the cusplike T c ͑H͒ line formed by the states with different orbital quantum numbers.…”
Section: (Received 24 July 2000)mentioning
confidence: 99%
“…1a) and increases by 1 upon each transition to the next ground state. In the case of a disk the vorticity is just the orbital quantum number, L, defining the flux, LF 0 , carried by the GVS [1,3]. Therefore in a disk, the symmetry-consistent solutions of the LGLE will correspond to the GVS (L .…”
Section: (Received 24 July 2000)mentioning
confidence: 99%
“…Thus alternative models based on flux trapping and compression effects by Lorentz forces were proposed by different authors. 10,11 An inhomogeneous superconducting transition can be the origin of flux compression. If the edges of the sample become superconducting first, vortices will be excluded from this region.…”
mentioning
confidence: 99%
“…In nanoscopic superconducting samples, controlling the vortex behavior is essential for the development of new devices based on fluxon dynamics [2]. The confinement of Cooper pairs to the length scales comparable to the correlation length also offers the prospect to probe fundamentally new phase topologies predicted by the theory, such as giant [3,4] and ring-like vortices [5]. This has led to renewed experimental efforts to observe giant vortex states, both in superconductors [6,7] and in superfluid atomic gases [8].…”
Section: Introductionmentioning
confidence: 99%