485 research outputs found
Niobium based intermetallics as a source of high-current/high-magnetic field superconductors
The article is focused on low temperature intermetallic A15 superconducting
wires development for Nuclear Magnetic Resonance, NMR, and Nuclear Magnetic
Imaging, MRI, magnets and also on cryogen-free magnets. There are many other
applications which would benefit from new development such as future Large
Hadron Collider to be built from A15 intermetallic conductors. This paper
highlights the current status of development of the niobium based
intermetallics with special attention to Nb 3 (Al 1-x, Ge x). Discussion is
focused on the materials science aspects of conductor manufacture, such as
b-phase (A15) formation, with particular emphasis on the maximisation of the
superconducting parameters, such as critical current density, Jc, critical
temperature, Tc, and upper critical field, Hc2 . Many successful manufacturing
techniques of the potential niobium-aluminide intermetallic superconducting
conductors, such as solid-state processing, liquid-solid processing, rapid
heating/cooling processes, are described, compared and assessed. Special
emphasis has been laid on conditions under which the Jc (B) peak effect occurs
in some of the Nb3(Al,Ge) wires. A novel electrodeoxidizing method developed in
Cambridge whereby the alloys and intermetallics are produced cheaply making all
superconducting electromagnetic devices, using low cost LTCs, more cost
effective is presented.This new technique has potential to revolutionise the
existing superconducting industry enabling reduction of cost orders of
magnitude.Comment: Paper presented at EUCAS'01 conference, Copenhagen, 26-30 August 200
Phase Relations in the Li2O-V2O3-V2O5 System at 700 C: Correlations with Magnetic Defect Concentration in Heavy Fermion LiV2O4
The phase relations in the Li2O-V2O3-V2O5 ternary system at 700 C for
compositions in equilibrium with LiV2O4 are reported. This study clarified the
synthesis conditions under which low and high magnetic defect concentrations
can be obtained within the spinel structure of LiV2O4. We confirmed that the
LiV2O4 phase can be obtained containing low (0.006 mol%) to high (0.83 mol%)
magnetic defect concentrations n{defect} and with consistently high magnetic
defect spin S values between 3 and 6.5. The high n{defect} values were obtained
in the LiV2O4 phase in equilibrium with V2O3, Li3VO4, or LiVO2 and the low
values in the LiV2O4 phase in equilibrium with V3O5. A model is suggested to
explain this correlation.Comment: 6 pages, 7 figures; Phys. Rev. B (accepted
Superconductivity and Density Wave in the Quasi-One-Dimensional Systems: Renormalization Group Study
The anisotropic superconductivity and the density wave have been investigated
by applying the Kadanoff-Wilson renormalization group technique to the
quasi-one-dimensional system with finite-range interactions. It is found that a
temperature (T) dependence of response functions is proportional to exp(1/T) in
a wide region of temperature even within the one-loop approximation. Transition
temperatures are calculated to obtain the phase diagram of the
quasi-one-dimensional system, which is compared with that of the
pure-one-dimensional system. Next-nearest neighbor interactions (V_2) induce
large charge fluctuations, which suppress the d_{x^2 -y^2}-wave singlet
superconducting (dSS) state and enhance the f-wave triplet superconducting
(fTS) state. From this effect, the transition temperature of fTS becomes
comparable to that of dSS for large V_2, so that field-induced f-wave triplet
pairing could be possible. These features are discussed to comprehend the
experiments on the (TMTSF)_2PF_6 salt.Comment: 8 pages, 4 figures, submitted to J. Phys. Soc. Jp
Head-neck taper corrosion in hip arthroplasty
Modularity at the head-neck junction of the femoral component in THA became popular as a design feature with advantages of decreasing implant inventory and allowing adjustment of leg length, offset, and soft tissue balancing through different head options. The introduction of a new modular interface to femoral stems that were previously monoblock, or nonmodular, comes with the potential for corrosion at the taper junction through mechanically assisted crevice corrosion. The incidence of revision hip arthroplasty is on the rise and along with improved wear properties of polyethylene and ceramic, use of larger femoral head sizes is becoming increasingly popular. Taper corrosion appears to be related to all of its geometric parameters, material combinations, and femoral head size. This review article discusses the pathogenesis, risk factors, clinical assessment, and management of taper corrosion at the head-neck junction.S. Hussenbocus, D. Kosuge, L. B. Solomon, D. W. Howie, and R. H. Oskoue
Phase Diagram of the Electron-Doped Cuprate Superconductors
We investigate the phase diagram of the electron-doped systems in high-Tc
cuprates. We calculate the superconducting transition temperature Tc, the
antiferromagnetic transition temperature TN, the NMR relaxation rate 1/T1 with
the antiferromagnetic fluctuations in the fluctuation-exchange (FLEX)
approximation and with the superconducting fluctuations in the self-consistent
t-matrix approximation. Obtained phase diagram has common features as those in
the hole-doped systems, including the antiferromagnetic state, the
superconducting state and the spin gap phenomenon. Doping-dependences of TN, Tc
and Tsg (spin gap temperature) are, however, different with those in the
hole-doped systems. These differences are due to the intrinsic nature of the
ingap states which are intimately related with the Zhang-Rice singlets in the
hole-doped systems and are correlated d-electrons in the electron-doped
systems, respectively, which has been shown in the d-p model.Comment: 4 pages, 3 figure
Femtosecond core level photoemision spectroscopy on 1T-TaS2 using 60 eV laser source
Time-resolved photoelectron spectroscopy (trPES) can directly detect
transient electronic structure, thus bringing out its promising potential to
clarify nonequilibrium processes arising in condensed matters. Here we report
the result of core-level (CL) trPES on 1T-TaS2, realized by developing a
high-intensity 60 eV laser obtained by high-order harmonic (HH) generation.
Ta4f CL-trPES offers the transient amplitude of the charge-density-wave (CDW),
via the site-selective and real-time observation of Ta electrons. The present
result indicates an ultrafast photoinduced melting and recovery of CDW
amplitude, followed by a peculiar long-life oscillation (i.e. collective
amplitudon excitation) accompanying the transfer of 0.01 electrons among
adjacent Ta atoms. CL-trPES offers a broad range of opportunities for
investigating the ultrafast atom-specific electron dynamics in photo-related
phenomena of interest
Cooperative Sentry Vehicles And Differential GPS Leapfrog
As part of a project for the Defense Advanced Research Projects Agency, Sandia National Laboratories Intelligent Systems and Robotics Center is developing and testing the feasibility of using a cooperative team of robotic sentry vehicles to guard a perimeter, perform a surround task, and travel extended distances. This paper describes the authors most recent activities. In particular, this paper highlights the development of a Differential Global Positioning System (DGPS) leapfrog capability that allows two or more vehicles to alternate sending DGPS corrections. Using this leapfrog technique, this paper shows that a group of autonomous vehicles can travel 22.68 kilometers with a root mean square positioning error of only 5 meters
International Expert Consensus Document on Takotsubo Syndrome (Part I): Clinical Characteristics, Diagnostic Criteria, and Pathophysiology
Takotsubo syndrome (TTS) is a poorly recognized heart disease that was initially regarded as a benign condition. Recently, it has been shown that TTS may be associated with severe clinical complications including death and that its prevalence is probably underestimated. Since current guidelines on TTS are lacking, it appears timely and important to provide an expert consensus statement on TTS. The clinical expert consensus document part I summarizes the current state of knowledge on clinical presentation and characteristics of TTS and agrees on controversies surrounding TTS such as nomenclature, different TTS types, role of coronary artery disease, and etiology. This consensus also proposes new diagnostic criteria based on current knowledge to improve diagnostic accuracy
Self-Assembly Fabrication of Hollow Mesoporous Silica@Co–Al Layered Double Hydroxide@Graphene and Application in Toxic Effluents Elimination
Here, we propose a self-assembly process to prepare hierarchical HM-SiO2@Co–Al LDH@graphene, with the purpose of combining their outstanding performance. Hollow mesoporous silica was first synthesized as the core, using a novel sonochemical method, followed by a controlled shell coating process and chemical reduction. As a result of the electrostatic potential difference among HM-SiO2, Co–Al LDH, and graphene oxide, the HM-SiO2 spheres were coated by Co–Al LDH and graphene. Subsequently, the HM-SiO2@Co–Al LDH@graphene spheres were introduced into an epoxy resin (EP) matrix for investigation of their toxic effluents capture and elimination effectiveness during combustion. The amount of toxic CO and volatile organic compounds from the epoxy resin decomposition significantly suppressed after incorporating the HM-SiO2@Co–Al LDH@graphene hybrids, implying a reduced toxicity
- …