Melting of 'porous' vortex matter
arXiv:cond-mat/0301227 · doi:10.1103/PhysRevLett.90.087004
Abstract
Bitter decoration and magneto-optical studies reveal that in heavy-ion irradiated superconductors, a 'porous' vortex matter is formed when vortices outnumber columnar defects (CDs). In this state ordered vortex crystallites are embedded in the 'pores' of a rigid matrix of vortices pinned on CDs. The crystallites melt through a first-order transition while the matrix remains solid. The melting temperature increases with density of CDs and eventually turns into a continuous transition. At high temperatures a sharp kink in the melting line is found, signaling an abrupt change from crystallite melting to melting of the rigid matrix.
(1) Paper to appear in Physical Review Letters. (2) 4 pages of text and 5 figures (3 figures in jpg and 2 figures in ps format). (3) Additional information about this work and Colored movies of the melting process can be obtained from http://www.weizmann.ac.il/home/fnsup/research-porous.html#movies