1,510 research outputs found
Anisotropic s-wave superconductivity in MgB_2
It has recently been observed that MgB_2 is a superconductor with a high
transition temperature. Here we propose a model of anisotropic s-wave
superconductivity which consistently describes the observed properties of this
compound, including the thermodynamic and optical response in sintered MgB_2
wires. We also determine the shape of the quasiparticle density of states and
the anisotropy of the upper critical field and the superfluid density which
should be detectable once single-crystal samples become available.Comment: RevTex, 10 pages with 4 eps figure
Enterobacter nimipressuralis as a cause of pseudobacteremia
<p>Abstract</p> <p>Background</p> <p>The clinical significance of the <it>Enterobacter nimipressuralis </it>as human pathogens remains unclear.</p> <p>Case presentations</p> <p>The microbiologic culture monitoring system of sterile body fluids revealed on an episode of <it>Enterobacter cloacae </it>and <it>Enterobacter amnigenus </it>in blood culture results on the same day; the antibiotic sensitivity and MIC were nearly the same for both species. First patient was a healthy woman with postmenopausal syndrome, while second patient with herpes zoster. Both patients had febrile sensations without signs of bacteremia. <it>E. amnigenus </it>was also cultured from the unused package of salined cotton in the container through epidemiologic investigation. The cultured <it>Enterobacter </it>species were all identified as <it>E. nimipressuralis </it>through <it>hsp60 </it>gene sequencing and infrequent-restriction-site PCR (IRS-PCR).</p> <p>Conclusion</p> <p>When an unusual microorganisms such as <it>E. nimipressuralis </it>is isolated from blood of a patient with no clinical signs of sepsis, a pseudobacteremia should be suspected. When the antibiogram and MIC test results of bacterial cultures from two or more patients are nearly the same, although the species involved may appear different, it may be necessary to prove that they are the same species through molecular methods. The microbiologic cultures monitoring system will probably help to detect pseudobacteremia and other pseudo infections through reliable and fast identification.</p
Theory of vortex excitation imaging via an NMR relaxation measurement
The temperature dependence of the site-dependent nuclear spin relaxation time
T_1 around vortices is studied in s-wave and d-wave superconductors.Reflecting
low energy electronic excitations associated with the vortex core, temperature
dependences deviate from those of the zero-field case, and T_1 becomes faster
with approaching the vortex core. In the core region, T_1^{-1} has a new peak
below T_c. The NMR study by the resonance field dependence may be a new method
to prove the spatial resolved vortex core structure in various superconductors.Comment: 5 pages, 3 figure
Fractal Properties of Robust Strange Nonchaotic Attractors in Maps of Two or More Dimensions
We consider the existence of robust strange nonchaotic attractors (SNA's) in
a simple class of quasiperiodically forced systems. Rigorous results are
presented demonstrating that the resulting attractors are strange in the sense
that their box-counting dimension is N+1 while their information dimension is
N. We also show how these properties are manifested in numerical experiments.Comment: 9 pages, 14 figure
Management of chest keloids
Keloid formation is one of the most challenging clinical problems in wound healing. With increasing frequency of open heart surgery, chest keloid formations are not infrequent in the clinical practice. The numerous treatment methods including surgical excision, intralesional steroid injection, radiation therapy, laser therapy, silicone gel sheeting, and pressure therapy underscore how little is understood about keloids. Keloids have a tendency to recur after surgical excision as a single treatment. Stretching tension is clearly associated with keloid generation, as keloids tend to occur on high tension sites such as chest region. The authors treated 58 chest keloid patients with surgical excision followed by intraoperative and postoperative intralesional steroid injection. Even with minor complications and recurrences, our protocol results in excellent outcomes in cases of chest keloids
Quasiparticle Spectrum of d-wave Superconductors in the Mixed State
The quasiparticle spectrum of a two-dimensional d-wave superconductor in the
mixed state, H_{c1} << H << H_{c2}, is studied both analytically and
numerically using the linearized Bogoliubov-de Gennes equation. We consider
various values of the "anisotropy ratio" v_F/v_Delta for the quasiparticle
velocities at the Dirac points, and we examine the implications of symmetry.
For a Bravais lattice of vortices, we find there is always an isolated
energy-zero (Dirac point) at the center of the Brillouin zone, but for a
non-Bravais lattice with two vortices per unit cell there is generally an
energy gap. In both of these cases, the density of states should vanish at zero
energy, in contrast with the semiclassical prediction of a constant density of
states, though the latter may hold down to very low energies for large
anisotropy ratios. This result is closely related to the particle-hole symmetry
of the band structures in lattices with two vortices per unit cell. More
complicated non-Bravais vortex lattice configurations with at least four
vortices per unit cell can break the particle-hole symmetry of the linearized
energy spectrum and lead to a finite density of states at zero energy.Comment: 16 pages, 14 figures, RevTe
Quasiparticles of d-wave superconductors in finite magnetic fields
We study quasiparticles of d-wave superconductors in the vortex lattice by
self-consistently solving the Bogoliubov-de Gennes equations. It is found for a
pure state that: (i) low-energy quasiparticle bands in the
magnetic Brillouin zone have rather large dispersion even in low magnetic
fields, indicating absense of bound states for an isolated vortex; (ii) in
finite fields with small, the calculated tunneling conductance at
the vortex core shows a double-peak structure near zero bias, as qualitatively
consistent with the STM experiment by Maggio-Aprile et al. [Phys. Rev. Lett.
{\bf 75} (1995) 2754]. We also find that mixing of a - or an s-wave
component, if any, develops gradually without transitions as the field is
increased, having little effect on the tunneling spectra.Comment: 4 pages, 4 figures, LaTe
Vortex structure in -wave superconductors
Vortex structure of pure -wave superconductors is
microscopically analyzed in the framework of the quasi-classical Eilenberger
equations. Selfconsistent solution for the -wave pair potential is obtained
for the first time in the case of an isolated vortex. The vortex core
structure, i.e., the pair potential, the supercurrent and the magnetic field,
is found to be fourfold symmetric even in the case that the mixing of -wave
component is absent. The detailed temperature dependences of these quantities
are calculated. The fourfold symmetry becomes clear when temperature is
decreased. The local density of states is calculated for the selfconsistently
obtained pair potential. From the results, we discuss the flow trajectory of
the quasiparticles around a vortex, which is characteristic in the
-wave superconductors. The experimental relevance of our results
to high temperature superconductors is also given.Comment: 22 pages, RevTex, 23 figures available upon reques
Site-selective nuclear magnetic relaxation time in a superconducting vortex state
The temperature and field dependences of the site-selective nuclear spin
relaxation time T_1 around vortices are studied comparatively both for s-wave
and d-wave superconductors, based on the microscopic Bogoliubov-de Gennes
theory. Reflecting low energy electronic excitations associated with the vortex
core, the site selective temperature dependences deviate from those of the
zero-field case, and T_1 becomes faster with approaching the vortex core. In
the core region, T_1^{-1} has a new peak below the superconducting transition
temperature T_c. The field dependence of the overall T_1(T) behaviors for
s-wave and d-wave superconductors is investigated and analyzed in terms of the
local density of states. The NMR study by the resonance field dependence may be
a new method to probe the spatial resolved vortex core structure in various
conventional and unconventional superconductors.Comment: 14Pages, 26 figures, revte
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