Vortex phases and glassy dynamics in the highly anisotropic superconductor HgBaCuO.

We present an extensive study of vortex dynamics in a high-quality single crystal of HgBaCuO, a highly anisotropic superconductor that is a model system for studying the effects of anisotropy. From magnetization M measurements over a wide range of temperatures T and fields H, we construct a detailed vortex phase diagram. We find that the temperature-dependent vortex penetration field H(T), second magnetization peak H(T), and irreversibility field H(T) all decay exponentially at low temperatures and exhibit an abrupt change in behavior at high temperatures T/T >~ 0.

Competing Interface and Bulk Effect-Driven Magnetoelectric Coupling in Vertically Aligned Nanocomposites.

Room-temperature magnetoelectric (ME) coupling is developed in artificial multilayers and nanocomposites composed of magnetostrictive and electrostrictive materials. While the coupling mechanisms and strengths in multilayers are widely studied, they are largely unexplored in vertically aligned nanocomposites (VANs), even though theory has predicted that VANs exhibit much larger ME coupling coefficients than multilayer structures. Here, strong transverse and longitudinal ME coupling in epitaxial BaTiO:CoFeO VANs measured by both optical second harmonic generation and piezoresponse force microscopy under magnetic fields is reported.

Localized magnetic moments in metallic SrB single crystals.

The specific heat [Formula: see text] of metallic SrB single crystals shows an anomalous behavior for [Formula: see text] K which varies strongly with an applied magnetic field. This is consistent with a two-level Schottky system. We ascribe the excess of [Formula: see text] in this temperature range to localized magnetic moments.

Missing magnetism in SrRuO: Indication for Antisymmetric Exchange Interaction.

Metamagnetism occuring inside a ferromagnetic phase is peculiar. Therefore, SrRuO, a T  = 105 K ferromagnet, has attracted much attention in recent years, because it develops a pronounced metamagnetic anomaly below T for magnetic fields applied in the crystallographic ab-plane. The metamagnetic transition moves to higher fields for lower temperatures and splits into a double anomaly at critical fields H  = 2.

Upward shift of the vortex solid phase in high-temperature-superconducting wires through high density nanoparticle addition.

We show a simple and effective way to improve the vortex irreversibility line up to very high magnetic fields (60T) by increasing the density of second phase BaZrO3 nanoparticles. (Y0.77,Gd0.

Aligned carbon nanotubes sandwiched in epitaxial NbC film for enhanced superconductivity.

Highly aligned carbon nanotube (CNT) ribbons were sandwiched in epitaxial superconducting NbC films by a chemical solution deposition method. The incorporation of aligned long CNTs into NbC film enhances the normal-state conductivity and improves the superconducting properties of the assembly.

Epitaxial superconducting δ-MoN films grown by a chemical solution method.

The synthesis of pure δ-MoN with desired superconducting properties usually requires extreme conditions, such as high temperature and high pressure, which hinders its fundamental studies and applications. Herein, by using a chemical solution method, epitaxial δ-MoN thin films have been grown on c-cut Al(2)O(3) substrates at a temperature lower than 900 °C and an ambient pressure. The films are phase pure and show a T(c) of 13.

Nanorod Self-Assembly in High J YBa₂Cu₃O₇ Films with Ru-Based Double Perovskites.

Many second phase additions to YBa₂Cu₃O (YBCO) films, in particular those that self-assemble into aligned nanorod and nanoparticle structures, enhance performance in self and applied fields. Of particular interest for additions are Ba-containing perovskites that are compatible with YBCO. In this report, we discuss the addition of Ba₂YRuO₆ to bulk and thick-film YBCO.

Ultrathin epitaxial superconducting niobium nitride films grown by a chemical solution technique.

Ultrathin epitaxial superconducting NbN (18 nm) films, exhibiting a superconducting transition temperature of 14 K and a critical current density as high as 5.2 MA cm(-2) at 5 K under zero magnetic field, were grown on SrTiO(3) (STO) by a chemical solution technique, polymer assisted deposition (PAD).