136 research outputs found
Narrow-band noise due to the moving vortex lattice in superconducting niobium
We report measurements of voltage noise due to vortex motion in Niobium, a
conventional low-Tc superconductor. A coherent oscillation leading to narrow
band noise (NBN) is evidenced. Its characteristic frequency is a linear
function of the overcritical transport current in the flux-flow regime, and
hence scales as the main velocity of the vortex flow. The associated length
scale is not the intervortex distance but the width of the sample, indicating
temporal coherence at a large scale. NBN is also observed in the non linear
part of the V(I) at the onset of depinning, in apparent disagreement with a
stochastic creep motion of flux bundles. NBN exists in the peak effect region,
showing that long range temporal correlations are preserved in this regime.Comment: accepted for publication in Phys Rev
Why pinning by surface irregularities can explain the peak effect in transport properties and neutron diffraction results in NbSe2 and Bi-2212 crystals?
The existence of a peak effect in transport properties (a maximum of the
critical current as function of magnetic field) is a well-known but still
intriguing feature of type II superconductors such as NbSe2 and Bi-2212. Using
a model of pinning by surface irregularities in anisotropic superconductors, we
have developed a calculation of the critical current which allows estimating
quantitatively the critical current in both the high critical current phase and
in the low critical current phase. The only adjustable parameter of this model
is the angle of the vortices at the surface. The agreement between the
measurements and the model is really very impressive. In this framework, the
anomalous dynamical properties close to the peak effect is due to co-existence
of two different vortex states with different critical currents. Recent neutron
diffraction data in NbSe2 crystals in presence of transport current support
this point of view
The influence of twin boundaries on the Flux Line Lattice structure in YBaCuO: a study by Small Angle Neutron Scattering
The influence of Twin Boundaries (TB) on the Flux Line Lattice(FLL) structure
was investigated by Small Angle Neutron Scattering (SANS). YBaCuO single
crystals possessing different TB densities were studied. The SANS experiments
show that the TB strongly modify the structure of the FLL. The flux lines
meander as soon as the magnetic field makes an angle with the TB direction.
According to the value of this angle but also to the ratio of the flux lines
density over the TB density, one observes that the FLL exhibits two different
unit cells in the plane perpendicular to the magnetic field. One is the
classical hexagonal and anisotropic cell while the other is affected by an
additional deformation induced by the TB. We discuss a possible relation
between this deformation and the increase of the critical current usually
observed in heavily twinned samples.Comment: accepted for publication in Phys Rev
IV-VI resonant cavity enhanced photodetectors for the midinfrared
A resonant-cavity enhanced detector operating in the mid-infrared at a
wavelength around 3.6 micron is demonstrated. The device is based on a
narrow-gap lead salt heterostructure grown by molecular beam epitaxy. Below 140
K, the photovoltage clearly shows a single narrow cavity resonance, with a
relative line width of only 2 % at 80 K.Comment: 2 figure
Magnetoresistance, noise properties and the Koshino-Taylor effect in the quasi-1D oxide KRu_4O_8
The low temperature electronic and galvanomagnetic transport properties of
the low dimensional oxide KRu_4O_8 are experimentally considered. A quadratic
temperature variation of the resistivity is observed to be proportional to the
residual resistivity. It shows the role of inelastic electron scattering
against impurities, i.e. a large Koshino-Taylor effect, rather than a
consequence of strong electronic correlations. In the same temperature range,
the Kohler rule is not fulfilled. The resistance noise increases also sharply,
possibly due to a strong coupling of carriers with lattice fluctuations in this
low dimensional compound.Comment: accepted for publication in Europhysics Lette
Direct correlation between strengthening mechanisms and electrical noise in strained copper wires
We have measured the resistance noise of copper metallic wires during a
tensile stress. The time variation of the main resistance is continuous up to
the wire breakdown, but its fluctuations reveal the intermittent and
heterogeneous character of plastic flow. We show in particular direct
correlations between strengthening mechanisms and noise spectra
characteristics.Comment: accepted in Phys Rev
HIGH SPIN ISOMERIC STATES IN 197Pb
High spin isomeric states in 197Pb have been investigated by in-beam gamma ray technics. These states are produced in (heavy ion, xn) reactions. various experiments performed are summarized in table I
Out of equilibrium electronic transport properties of a misfit cobaltite thin film
We report on transport measurements in a thin film of the 2D misfit Cobaltite
. Dc magnetoresistance measurements obey the modified
variable range hopping law expected for a soft Coulomb gap. When the sample is
cooled down, we observe large telegraphic-like fluctuations. At low
temperature, these slow fluctuations have non Gaussian statistics, and are
stable under a large magnetic field. These results suggest that the low
temperature state is a glassy electronic state. Resistance relaxation and
memory effects of pure magnetic origin are also observed, but without aging
phenomena. This indicates that these magnetic effects are not glassy-like and
are not directly coupled to the electronic part.Comment: accepted in Phys Rev B, Brief report
Spin-driven electric polarization from strong 4d-4f cross-coupling in 6H-perovskite Ba3HoRu2O9
The occurrence of spin-driven polarization is rarely observed in 4d or 5d
transition-metal oxides, compared to their 3d-transition-metal oxide
counterparts, despite theoretical predictions of the good possibility of
multiferroicity in higher d-orbital systems. Here we have studied a prototype
4d-4f compound, Ba3HoRu2O9, through time-of-flight neutron diffraction, ac
susceptibility, and complex dielectric spectroscopy. We demonstrate that the
non-colinear structure involving two different magnetic ions, Ru(4d) and
Ho(4f), breaks the spatial inversion symmetry via inverse Dzyaloshinskii Moriya
(D-M) interaction through strong 4d-4f magnetic correlation, which results in
non-zero polarization. The stronger spin-orbit coupling of 4d-orbital might
play a major role in creating D-M interaction of non-linear spins. We have
systematically investigated the magnetoelectric domain dynamics in this system,
which exhibits intriguing behavior with shorter correlation lengths. Further,
we have investigated the effect of external pressure on the magnetic
transition. The result reveals an enhancement of ordering temperature by the
application of external pressure (1.6K per GPa). We speculate that external
pressure might favor stabilizing the magnetoelectric phase. Our study shows a
route to designing magnetoelectric multiferroic compounds containing larger
d-orbital through strong 4d-4f cross-coupling
- …