490 research outputs found
Low Field Magnetic Response of the Granular Superconductor LaSrCuO
The properties of the low excitation field magnetic response of the granular
high temperature (HTSC) superconductor LaSrCuO have been analyzed at low
temperatures. The response of the Josephson currents has been extracted from
the data. It is shown that intergrain current response is fully irreversible,
producing shielding response, but do not carry Meissner magnetization. Analysis
of the data shows that the system of Josephson currents freezes into a glassy
state even in the absense of external magnetic field, which is argued to be a
consequence of the d-wave nature of superconductivity in LaSrCuO. The
macroscopic diamagnetic response to very weak variations of the magnetic field
is shown to be strongly irreversible but still qualitatively different from any
previously known kind of the critical-state behaviour in superconductors.
A phenomenological description of these data is given in terms of a newly
proposed ``fractal'' model of irreversibility in superconductors.Comment: LATEX, twocolumns, 22 pages including 20 eps-figure
Low-Temperature Features of Nano-Particle Dynamics
In view of better characterizing possible quantum effects in the dynamics of
nanometric particles, we measure the effect on the relaxation of a slight
heating cycle. The effect of the field amplitude is studied; its magnitude is
chosen in order to induce the relaxation of large particles (~7nm), even at
very low temperatures (100mK). Below 1K, the results significantly depart from
a simple thermal dynamics scenario.Comment: 1 tex file, 4 PostScript figure
Fluctuation-dissipation ratio of a spin glass in the aging regime
We present the first experimental determination of the time autocorrelation
of magnetization in the non-stationary regime of a spin glass.
Quantitative comparison with the response, the magnetic susceptibility
, is made using a new experimental setup allowing both measurements
in the same conditions. Clearly, we observe a non-linear
fluctuation-dissipation relation between and , depending weakly on
the waiting time . Following theoretical developments on mean-field models,
and lately on short range models, it is predicted that in the limit of long
times, the relationship should become independent on . A scaling
procedure allows us to extrapolate to the limit of long waiting times.Comment: 4 pages, 3 figure
A new experimental procedure for characterizing quantum effects in small magnetic particle systems
A new experimental procedure is discussed, which aims at separating thermal
from quantum behavior independently of the energy barrier distribution in small
particle systems.
Magnetization relaxation data measured between 60 mK and 5 K on a sample of
nanoparticles is presented. The comparison between experimental data and
numerical calculations shows a clear departure from thermal dynamics for our
sample, which was not obvious without using the new procedure presented here.Comment: LaTeX source, 6 pages, 5 PostScript figure
Disentangling Distribution Effects and Nature of the Dynamics in Relaxation Measurements: the RMR Method
URL: http://www-spht.cea.fr/articles/s00/004 (sur invitation). Comment séparer les effets de distribution et la nature de la dynamique dans des mesures de relaxation magnétiques: la méthode RMRWe discuss here the nature of the low temperature magnetic relaxation in samples of magnetic nanoparticles. In addition to usual magnetic viscosity measurement, we have used the Residual Memory Ratio (RMR) method. This procedure enables us to overcome the uncertainties usually associated with the energy barrier distribution, thus giving a more detailed insight on the nature of the observed dynamics. A custom made apparatus coupling dilution refrigeration and SQUID magnetometry allowed measurements of very diluted samples at temperatures ranging between 60mK and 7K. Two types of particles have been studied: -FeO of moderate anisotropy, and CoFeO of higher anisotropy where quantum effects are more likely to occur. In both cases, the data cannot simply be interpreted in terms of mere thermally activated dynamics of independent particles. The deviation from thermal activation seems to go opposite of what is expected from the possible effect of particle interactions. We therefore believe that it suggests the occurrence of quantum dynamics at very low temperatures
Superconducting diamagnetic fluctuations in ropes of carbon nanotubes
We report low-temperature magnetisation measurements on a large number of
purified ropes of single wall carbon nanotubes. In spite of a large
superparamagnetic contribution due to the small ferromagnetic catalytical
particles still present in the sample, at low temperature () and low
magnetic field (), a diamagnetic signal is detectable. This low
temperature diamagnetism can be interpreted as the Meissner effect in ropes of
carbon nanotubes which have previously been shown to exhibit superconductivity
from transport measurements.Comment: 10 pages 3 figure
Full Aging in Spin Glasses
The discovery of memory effects in the magnetization decays of spin glasses
in 1983 began a large effort to determine the exact nature of the decay. While
qualitative arguments have suggested that the decay functions should scale as
, the only time scale in the system, this type of scaling has not yet
been observed. In this letter we report strong evidence for the scaling of the
TRM magnetization decays as a function of . By varying the rate and the
profile that the sample is cooled through its transition temperature to the
measuring temperature, we find that the cooling plays a major role in
determining scaling. As the effective cooling time decreases, scaling improves and for we find almost perfect
scaling. We also find that subtraction of a stationary term
from the magnetization decay has a small effect on the scaling but changes the
form of the magnetization decay and improves overlap between curves produced
with different .Comment: 4 pages, 3 figure
Linear response subordination to intermittent energy release in off-equilibrium aging dynamics
The interpretation of experimental and numerical data describing
off-equilibrium aging dynamics crucially depends on the connection between
spontaneous and induced fluctuations. The hypothesis that linear response
fluctuations are statistically subordinated to irreversible outbursts of
energy, so-called quakes, leads to predictions for averages and fluctuations
spectra of physical observables in reasonable agreement with experimental
results [see e.g. Sibani et al., Phys. Rev. B74:224407, 2006]. Using
simulational data from a simple but representative Ising model with plaquette
interactions, direct statistical evidence supporting the hypothesis is
presented and discussed in this work.
A strict temporal correlation between quakes and intermittent magnetization
fluctuations is demonstrated. The external magnetic field is shown to bias the
pre-existent intermittent tails of the magnetic fluctuation distribution, with
little or no effect on the Gaussian part of the latter. Its impact on energy
fluctuations is shown to be negligible.
Linear response is thus controlled by the quakes and inherits their temporal
statistics. These findings provide a theoretical basis for analyzing
intermittent linear response data from aging system in the same way as thermal
energy fluctuations, which are far more difficult to measure.Comment: 9 pages, 10 figures. Text improve
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