990 research outputs found
Evidence for thermal activation in the glassy dynamics of insulating granular aluminum conductance
Insulating granular aluminum is one of the proto-typical disordered
insulators whose low temperature electrical conductance exhibits ubiquitous
non-equilibrium phenomena. These include slow responses to temperature or gate
voltage changes, characteristic field effect anomalies and ageing phenomena
typical of a glass. In this system the influence of temperature on the glassy
dynamics has remained elusive, leading to the belief that the slow relaxations
essentially proceed via elastic quantum tunneling. A similar situation was met
in insulating indium oxide and it was concluded that in high carrier density
Anderson insulators, electrons form a quantum glass phase. In this work we
experimentally demonstrate that thermal effects do play a role and that the
slow dynamics in granular aluminum is subject to thermal activation. We show
how its signatures can be revealed and activation energy distributions can be
extracted, providing a promising grasp on the nature of the microscopic
mechanism at work in glassy Anderson insulators. We explain why some of the
experimental protocols previously used in the literature fail to reveal thermal
activation in these systems. Our results and analyses call for a reassessment
of the emblematic case of indium oxide, and question the existence of a quantum
glass in any of the systems studied so far
Galactic positrons and electrons from astrophysical sources and dark matter
A very interesting puzzle about the origin of electron and positron cosmic
rays is deduced from the latests experimental results. We model the propagation
of such cosmic rays in terms of a successfully tested two--zone propagation
model. Several theoretical uncertainties -- like ones related to propagation --
are considered to study different types of electron and positron sources: dark
matter annihilation, secondary production, and supernova remnants.Comment: 3 pages, 1 figure. Proceedings for conference "Topics in
Astroparticle and Underground Physics" (TAUP2009). Rome, July 1-5, 200
Determination of characteristic relaxation times and their significance in glassy disordered insulators
We revisit the field effect procedure used to characterise the slow dynamics
of glassy Anderson insulators. It is shown that in the slowest systems the
procedure fails and the "characteristic" time values extracted are not
intrinsic but determined by the experimental procedure itself. In other cases
(like lightly doped indium oxide) qualitative indications about the dynamics
might be obtained, however the times extracted cannot be seen as characteristic
relaxation times of the system in any simple manner, and more complete
experiments are necessary. Implications regarding the effect of carrier
concentration on the emergence of glassiness are briefly outlined.Comment: published with minor proof correction
Metallicity of the SrTiO3 surface induced by room temperature evaporation of alumina
It is shown that a metallic state can be induced on the surface of SrTiO3
crystals by the electron beam evaporation of oxygen deficient alumina or
insulating granular aluminium. No special preparation nor heating of the SrTiO3
surface is needed. Final metallic or insulating states can be obtained
depending on the oxygen pressure during the evaporation process.
Photoconductivity and electrical field effect are also demonstrated.Comment: 8 pages, 3 figure
Slow Conductance Relaxation in Insulating Granular Al: Evidence for Screening Effects
It is shown that the conductance relaxations observed in electrical field
effect measurements on granular Al films are the sum of two contributions. One
is sensitive to gate voltage changes and gives the already reported anomalous
electrical field effect. The other one is independent of the gate voltage
history and starts when the films are cooled down to low temperature. Their
relative amplitude is strongly thickness dependent which demonstrates the
existence of a finite screening length in our insulating films and allows its
quantitative estimate (about 10nm at 4K). This metallic-like screening should
be taken into account in the electron glass models of disordered insulators
Positrons from dark matter annihilation in the galactic halo: uncertainties
Indirect detection signals from dark matter annihilation are studied in the
positron channel. We discuss in detail the positron propagation inside the
galactic medium: we present novel solutions of the diffusion and propagation
equations and we focus on the determination of the astrophysical uncertainties
which affect the positron dark matter signal. We show that, especially in the
low energy tail of the positron spectra at Earth, the uncertainty is sizeable
and we quantify the effect. Comparison of our predictions with current
available and foreseen experimental data are derived.Comment: 4 pages, 4 figures, Proc. of the 30th International Cosmic Ray
Conference, July 3 - 11, 2007, Merida, Yucatan, Mexico (ICRC07
Positrons from dark matter annihilation in the galactic halo: theoretical uncertainties
Indirect detection signals from dark matter annihilation are studied in the
positron channel. We discuss in detail the positron propagation inside the
galactic medium: we present novel solutions of the diffusion and propagation
equations and we focus on the determination of the astrophysical uncertainties
which affect the positron dark matter signal. We find dark matter scenarios and
propagation models that nicely fit existing data on the positron fraction.
Finally, we present predictions both on the positron fraction and on the flux
for already running or planned space experiments, concluding that they have the
potential to discriminate a possible signal from the background and, in some
cases, to distinguish among different astrophysical propagation models.Comment: 22 pages, 15 figures. A few comments and references adde
Ageing and relaxation times in disordered insulators
We focus on the slow relaxations observed in the conductance of disordered
insulators at low temperature (especially granular aluminum films). They
manifest themselves as a temporal logarithmic decrease of the conductance after
a quench from high temperatures and the concomitant appearance of a field
effect anomaly centered on the gate voltage maintained. We are first interested
in ageing effects, i.e. the age dependence of the dynamical properties of the
system. We stress that the formation of a second field effect anomaly at a
different gate voltage is not a "history free" logarithmic (lnt) process, but
departs from lnt in a way which encodes the system's age. The apparent
relaxation time distribution extracted from the observed relaxations is thus
not "constant" but evolves with time. We discuss what defines the age of the
system and what external perturbation out of equilibrium does or does not
rejuvenate it. We further discuss the problem of relaxation times and comment
on the commonly used "two dip" experimental protocol aimed at extracting
"characteristic times" for the glassy systems (granular aluminum, doped indium
oxide...). We show that it is inoperable for systems like granular Al and
probably highly doped InOx where it provides a trivial value only determined by
the experimental protocol. But in cases where different values are obtained
like in lightly doped InOx or some ultra thin metal films, potentially
interesting information can be obtained, possibly about the "short time"
dynamics of the different systems. Present ideas about the effect of doping on
the glassiness of disordered insulators may also have to be reconsidered.Comment: to appear in the proceedings of the 14th International Conference on
Transport and Interactions in Disordered Systems (TIDS14
Gate voltage control of the AlOx /SrTiO3 interface electrical properties
International audienceElectron-beam deposition of an insulating granular aluminium or of an off-stoichiometric amorphous alumina layer on a SrTiO3 surface is a simple way to get a metallic interface from insulating materials. No heating nor specific preparation of the SrTiO3 surface are needed. In this paper, we investigate how the electrical properties of this interface can be tuned by the use of a back gate voltage (electrical field through the SrTiO3 substrate). We demonstrate that the slow field-effect observed at room temperature can be used to tune reversibly and in a controlled way the low temperature electrical properties of the interface. In particular, important parameters of a transistor such as the amplitude of the resistance response to gate voltage changes or the existence of an "on " or an "off " state at zero gate voltage and at low temperature can be adjusted in a single sample. This method should be applicable to any SrTiO3-based interface in which oxygen vacancies are involved and might provide a powerful way to study the metal or superconductor insulator transition observed in such systems
Dark Matter detection via lepton cosmic rays
Recent observations of lepton cosmic rays, coming from the PAMELA and FERMI
experiments, have pushed our understanding of the interstellar medium and
cosmic rays sources to unprecedented levels. The imprint of dark matter on
lepton cosmic rays is the most exciting explanation of both PAMELA's positron
excess and FERMI's total flux of electrons. Alternatively, supernovae are
astrophysical objects with the same potential to explain these observations. In
this work, we present an updated study of the astrophysical sources of lepton
cosmic rays and the possible trace of a dark matter signal on the positron
excess and total flux of electrons.Comment: 6 pages and 3 figures. Proceedings for PASCOS 2010, Valencia, Spai
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