Melting of regular and decoupled vortex lattices in BSCCO crystals

TL;DR

This study investigates the angular dependence of the first-order phase transition in vortex lattices of BSCCO crystals, revealing a new transition and a complex phase diagram influenced by pancake and Josephson vortex interactions.

Contribution

It provides new insights into vortex phase transitions in BSCCO, identifying a critical in-plane field and a novel transition affecting the vortex solid phase.

Findings

FOT field decreases linearly with in-plane field

A new transition occurs at a critical in-plane field

The phase diagram shows two distinct vortex solid regions

Abstract

The angular dependence of the first-order phase transition (FOT) in the vortex lattice in Bi$_{2}$Sr$_{2}$CaCu$_{2}$O$_{8}$ crystals was investigated by a low frequency AC shielding technique (with the AC field $\parallel c$), in which the static-field component parallel to $c$- ($H_{\perp}$) was varied with the in-plane field $H_{\parallel}$ held constant. The linear decrease of the FOT field $H_{\perp}^{FOT}$ with increasing $H_{\parallel}$ ends at a temperature--dependent critical value of $H_{\parallel}$. A new transition, marked by the abrupt drop of the $ab$-plane shielding current, appears at this point. We draw a new phase diagram with $H_{\parallel}$ and $H_{\perp}$ field components as coordinates; this features at least two distinct regions in the vortex solid phase, that are determined by the different interplay between the pancake vortex-- and Josephson vortex lattice.