INCLINED-FIELD STRUCTURE, MORPHOLOGY, AND PINNING OF THE VORTEX LATTICE IN MICROTWINNED YBA2CU3O7
Publication Year
1993
Type
Journal Article
Abstract
A detailed small-angle neutron scattering study of the vortex lattice in a single crystal of YBa2Cu3O7 was made for a field of 0.5 tesla inclined at angles between 0 and 80 degrees to the crystalline c axis. The vortex lattice is triangular for all angles, and for angles less than or equal to 70 degrees its orientation adjusts itself to maximize the pinning energy to densely and highly regularly spaced twin planes. These observations have important implications for the microscopic flux-pinning mechanism, and hence for the critical current achievable in YBaCu3O7. For large angles (about 80 degrees) the vortex lattice consists of independent chains in the orientation predicted by anisotropic London theory.
Journal
Science
Volume
262
Pages
83-86
Date Published
10/1993
Type of Article
Article
ISBN
0036-8075
Accession Number
WOS:A1993LZ63500025
Times Cited: 26Keimer, b dogan, f aksay, ia erwin, rw lynn, jw sarikaya, mAksay, Ilhan/B-9281-200826Amer assoc advancement scienceWashington