5,376 research outputs found
Effects of Dissipation on Quantum Phase Slippage in Charge Density Wave Systems
We study the effect of the dissipation on the quantum phase slippage via the
creation of ``vortex ring'' in charge density wave (CDW) systems. The
dissipation is assumed to come from the interaction with the normal electron
near and inside of the vortex core. We describe the CDW by extracted
macroscopic degrees of freedom, that is, the CDW phase and the radius of the
``vortex ring'', assume the ohmic dissipation, and investigate the effect in
the context of semiclassical approximation.
The obtained results are discussed in comparison with experiments. It turns
out that the effect of such a dissipation can be neglected in experiments.Comment: 9 pages (revtex), 2 figures, using epsf.st
The Effects of d_{x^2-y^2}-d_{xy} Mixing on Vortex Structures and Magnetization
The structure of an isolated single vortex and the vortex lattice, and the
magnetization in a -wave superconductor are investigated within a
phenomenological Ginzburg-Landau (GL) model including the mixture of the
-wave and -wave symmetry. The isolated single vortex
structure in a week magnetic field is studied both numerically and
asymptotically. Near the upper critical field , the vortex lattice
structure and the magnetization are calculated analytically.Comment: 14 pages, REVTeX, 2 EPS figures, Journal of Physics: Condensed Matter
(in press
Thermal conductivity in B- and C- phase of UPt_3
Although the superconductivity in UPt_3 is one of the most well studied,
there are still lingering questions about the nodal directions in the B and C
phase in the presence of a magnetic field. Limiting ourselves to the low
temperature regime (T<<Delta(0)), we study the magnetothermal conductivity with
in semiclassical approximation using Volovik's approach. The angular dependence
of the magnetothermal conductivity for an arbitrary field direction should
clarify the nodal structure in UPt_3.Comment: 4 pages, 5 figure
Bridging k- and q- Space in the Cuprates: Comparing ARPES and STM Results
A critical comparison is made between the ARPES-derived spectral function and
STM studies of Friedel-like oscillations in Bi_2Sr_2CaCu_2O_{8+delta} (Bi2212).
The data can be made approximately consistent, provided that (a) the elastic
scattering seen in ARPES is predominantly small-angle scattering and (b) the
`peak' feature seen in ARPES is really a dispersive `bright spot', smeared into
a line by limited energy resolution; these are the `bright spots' which control
the quasiparticle interferences. However, there is no indication of bilayer
splitting in the STM data.Comment: 6 eps figures, revte
Antiferromagnetic Excitations and Van Hove Singularities in YBaCuO
We show that in quasi-two-dimensional -wave superconductors Van Hove
singularities close to the Fermi surface lead to novel magnetic quasi-particle
excitations. We calculate the temperature and doping dependence of dynamical
magnetic susceptibility for YBCO and show that the proposed excitations are in
agreement with inelastic neutron scattering experiments. In addition, the
values of the gap parameter and in-plane antiferromagnetic coupling are much
smaller than usually believed.Comment: REVTeX, 4 pages + 3 PostScript (compressed) figures; to appear in
Phys. Rev. B (Rap. Comm.
Quasiparticle spectrum of the hybrid s+g-wave superconductors YNi_2B_2C and LuNi_2B_2C
Recent experiments on single crystals of YNiBC have revealed the
presence of point nodes in the superconducting energy gap Delta(k} at k =
(1,0,0), (0,1,0), (-1,0,0), and (0,-1,0). In this paper we investigate the
effects of impurity scattering on the quasiparticle spectrum in the vortex
state of s+g-wave superconductors, which is found to be strongly modified in
the presence of disorder. In particular, a gap in the quasiparticle energy
spectrum is found to open even for infinitesimal impurity scattering, giving
rise to exponentially activated thermodynamic response functions, such as the
specific heat, the spin susceptibility, the superfluid density, and the nuclear
spin lattice relaxation. Predictions derived from this study can be verified by
measurements of the angular dependent magnetospecific heat and the
magnetothermal conductivity.Comment: 8 pages, RevTex, 4 figure
Sound propagation in density wave conductors and the effect of long-range Coulomb interaction
We study theoretically the sound propagation in charge- and spin-density
waves in the hydrodynamic regime. First, making use of the method of comoving
frame, we construct the stress tensor appropriate for quasi-one dimensional
systems within tight-binding approximation. Taking into account the screening
effect of the long-range Coulomb interaction, we find that the increase of the
sound velocity below the critical temperature is about two orders of magnitude
less for longitudinal sound than for transverse one. It is shown that only the
transverse sound wave with displacement vector parallel to the chain direction
couples to the phason of the density wave, therefore we expect significant
electromechanical effect only in this case.Comment: revtex, 14 pages (in preprint form), submitted to PR
Superconducting Gap Structure of kappa-(BEDT-TTF)2Cu(NCS)2 Probed by Thermal Conductivity Tensor
The thermal conductivity of organic superconductor kappa-(BEDT-TTF)2Cu(NCS)2
(Tc =10.4 K) has been studied in a magnetic field rotating within the 2D
superconducting planes with high alignment precision. At low temperatures (T <
0.5 K), a clear fourfold symmetry in the angular variation, which is
characteristic of a d-wave superconducting gap with nodes along the directions
rotated 45 degrees relative to the b and c axes of the crystal, was resolved.
The determined nodal structure is inconsistent with recent theoretical
predictions of superconductivity induced by the antiferromagnetic spin
fluctuation.Comment: 5 pages, 4 figures, to be published in Phys. Rev. Let
Multiple Superconducting Phases in New Heavy Fermion Superconductor PrOs4Sb12
The superconducting gap structure of recently discovered heavy fermion
superconductor PrOs4Sb12 was investigated by using thermal transport
measurements in magnetic field rotated relative to the crystal axes. We
demonstrate that a novel change in the symmetry of the superconducting gap
function occurs deep inside the superconducting state, giving a clear
indication of the presence of two distinct superconducting phases with twofold
and fourfold symmetries. We infer that the gap functions in both phases have a
point node singularity, in contrast to the familiar line node singularity
observed in almost all unconventional superconductors.Comment: 4 Pages, 4 Figure
The magnetic field dependence of the threshold electric field in unconventional charge density waves
Many experiments suggest that the unidentified low temperature phase (LTP) of
alpha-(BEDT-TTF)_2KHg(SCN)_4 is most likely unconventional charge density wave
(UCDW). To further this identification we present our theoretical study of the
threshold electric field of UCDW in a magnetic field. The magnetic
field-temperature phase diagram is very similar to those in a d-wave
superconductor. We find a rather strong field dependence of the threshold
electric field, which should be readily accessible experimentally.Comment: 7 pages, 6 figure
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