28,079 research outputs found
Inelastic relaxation and noise temperature in S/N/S junctions
We studied electronic relaxation in long diffusive superconductor / normal
metal / superconductor (S/N/S) junctions by means of current noise and
transport measurements down to very low temperature (100mK). Samples with
normal metal lengths of 4, 10 and 60 micrometer have been investigated. In all
samples the shot noise increases very rapidly with the voltage. This is
interpreted in terms of enhanced heating of the electron gas confined between
the two S/N interfaces. Experimental results are analyzed quantitatively taking
into account electron-phonon interaction and heat transfer through the S/N
interfaces. Transport measurements reveal that in all samples the two S/N
interfaces are connected incoherently, as shown by the reentrance of the
resistance at low temperature. The complementarity of noise and transport
measurements allows us to show that the energy dependence of the reentrance at
low voltage is essentially due to the increasing effective temperature of the
quasiparticles in the normal metal.Comment: 5 pages, 4 figures, to be published in EPJ
Mesoscopic transition in the shot noise of diffusive S/N/S junctions
We experimentally investigated the current noise in diffusive
Superconductor/Normal metal/Superconductor junctions with lengths between the
superconducting coherence length xi_Delta and the phase coherence length L_Phi
of the normal metal (xi_Delta < L < L_Phi). We measured the shot noise over a
large range of energy covering both the regimes of coherent and incoherent
multiple Andreev reflections. The transition between these two regimes occurs
at the Thouless energy where a pronounced minimum in the current noise density
is observed. Above the Thouless energy, in the regime of incoherent multiple
Andreev reflections, the noise is strongly enhanced compared to a normal
junction and grows linearly with the bias voltage. Semi-classical theory
describes the experimental results accurately, when taking into account the
voltage dependence of the resistance which reflects the proximity effect. Below
the Thouless energy, the shot noise diverges with decreasing voltage which may
indicate the coherent transfer of multiple charges.Comment: 5 pages, 5 figures, accepted for publication in Phys. Rev. B, Rapid
Communicatio
Doubled Full Shot Noise in Quantum Coherent Superconductor - Semiconductor Junctions
We performed low temperature shot noise measurements in Superconductor (TiN)
- strongly disordered normal metal (heavily doped Si) weakly transparent
junctions. We show that the conductance has a maximum due to coherent multiple
reflections at low energy and that shot noise is then twice the Poisson noise
(S=4eI). The shot noise changes to the normal value (S=2eI) due to a large
quasiparticle contribution.Comment: published in Physical Review Letter
Multistability and localization in forced cyclic symmetric structures modelled by weakly-coupled Duffing oscillators
Many engineering structures are composed of weakly coupled sectors assembled
in a cyclic and ideally symmetric configuration, which can be simplified as
forced Duffing oscillators. In this paper, we study the emergence of localized
states in the weakly nonlinear regime. We show that multiple spatially
localized solutions may exist, and the resulting bifurcation diagram strongly
resembles the snaking pattern observed in a variety of fields in physics, such
as optics and fluid dynamics. Moreover, in the transition from the linear to
the nonlinear behaviour isolated branches of solutions are identified.
Localization is caused by the hardening effect introduced by the nonlinear
stiffness, and occurs at large excitation levels. Contrary to the case of
mistuning, the presented localization mechanism is triggered by the
nonlinearities and arises in perfectly homogeneous systems
Reformulation in planning
Reformulation of a problem is intended to make the problem more amenable to efficient solution. This is equally true in the special case of reformulating a planning problem. This paper considers various ways in which reformulation can be exploited in planning
Medium-Term Aspects of a Coal Revival: Two Case Studies. Report of the IIASA Coal Task Force
Analysis of the energy options open to mankind once cheap oil and gas resources have been exhausted is one of the main areas of research within the IIASA Energy Systems Program. This report summarizes the collaborative efforts of experts from British and German coal bodies in investigating potentials and problems of a medium-term revival of coal. The two countries were chosen as examples, because coal has played a central role in their industrial development and still possesses a major share in their supply balances. Based on the results of the two case studies, the ongoing work of the Coal Task Force will concentrate on questions of the future world coal market, on global environmental problems in the truly extensive use of coal, and in particular on the critical role of coal as an option for transition to a non-fossil global energy supply system. The findings, though based on a quite extended time horizon, point to a number of imminent questions with respect to research and development programs and national energy policy decisions
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