1,804 research outputs found
Quasiparticle Relaxation Rates in a spatially inhomogeneous superconductor
Effective quasi-particle relaxation rates in reduced gap regions of a dirty superconductor (S) at low temperatures are calculated from microscopic theory
Green function theory of dirty two-band superconductivity
We study the effects of random nonmagnetic impurities on the superconducting
transition temperature in a two-band superconductor, where we assume the
equal-time spin-singlet s-wave pair potential in each conduction band and the
hybridization between the two bands as well as the band asymmetry. In the clean
limit, the phase of hybridization determines the stability of two states:
called and . The interband impurity scatterings decrease
of the two states exactly in the same manner when the Hamiltonian preserves
time-reversal symmetry. We find that a superconductor with larger hybridization
shows more moderate suppression of . This effect can be explained by the
presence of odd-frequency Cooper pairs which are generated by the band
hybridization in the clean limit and are broken by impurities.Comment: 11 pages, 2 figure
Impurity scattering in highly anisotropic superconductors and interband sign reversal of the order parameter
We discuss various mechanisms that can lead to interband sign reversal of the
order parameter in a multiband superconductor. In particular, we generalize
Abrikosov-Gor'kov solution of the problem of weakly coupled superconductor with
magnetic and nonmagnetic impurities on the case of arbitary order parameter
anisotropy, including extreme cases as pairing or interband sign reversal
of the order parameter, and show that interband scattering by magnetic
impurities can stabilize an interband sign-reversal state. We discuss a
possibility of such state in YBaCuO in the context of various
experiments: Josephson tunneling, neutron scattering, isotope effect
measurements.Comment: 8 pages, 1 psfig. To be published in materials of 1996 SPIE
conference "Spectroscopic Studies of Superconductors". This is a summary of
papers cond-mat/9501117, cond-mat/9501118, cond-mat/9502025,
cond-mat/9504076. Besides, we derive a formula for Tc suppression by magnetic
and nonmagnetic impurities for arbitrary anisotrop
Properties of tunnel Josephson junctions with a ferromagnetic interlayer
We investigate superconductor/insulator/ferromagnet/superconductor (SIFS)
tunnel Josephson junctions in the dirty limit, using the quasiclassical theory.
We formulate a quantitative model describing the oscillations of critical
current as a function of thickness of the ferromagnetic layer and use this
model to fit recent experimental data. We also calculate quantitatively the
density of states (DOS) in this type of junctions and compare DOS oscillations
with those of the critical current.Comment: 9 pages, 8 figures, to be published in Phys. Rev.
Dissipative current in SIFS Josephson junctions
We investigate superconductor/insulator/ferromagnet/superconductor (SIFS)
tunnel Josephson junctions in the dirty limit, using the quasiclassical theory.
We consider the case of a strong tunnel barrier such that the left S layer and
the right FS bilayer are decoupled. We calculate quantitatively the density of
states (DOS) in the FS bilayer for arbitrary length of the ferromagnetic layer,
using a self-consistent numerical method. We compare these results with a known
analytical DOS approximation, which is valid when the ferromagnetic layer is
long enough. Finally we calculate quantitatively the current-voltage
characteristics of a SIFS junction.Comment: Proceedings of the Vortex VI conference, to be published in Physica
Cooling jug physics
We discuss the physics of the pot-in-pot cooler. By balancing temperature
decrease due to evaporation and temperature increase due to heat exchange, we
find the equilibrium temperature of the pot. In this simplified model, the
cooling jug acts as a psychrometer, and the theoretical prediction of our model
is in a good agreement with psychrometric tables. Next, we study dynamics of
the jug cooling. The cooling rate is limited by water vapour diffusion through
air, heat conduction through air, and heat conduction through the body of the
jug. The derived rate of temperature decrease is in general agreement with the
result of our experiment. In the end, we discuss some additional factors, such
as capillary effects in the raw clay, water viscosity in the capillaries, and
impact of complex shape of the jug.Comment: 10 page
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