15,675 research outputs found
Andreev reflection in bilayer graphene
We consider the conductance of a normal-superconductor junction in bilayer
graphene in the framework of the Dirac-Bogoliubov-De-Gennes equation. A
remarkable suppression of the conductance at voltages just below the
superconducting gap is found. This can be understood in terms of the spinor
structures of the electron and hole excitations, in particular the reflected
valence band hole being orthogonal to the incoming electron at normal
incidence.
Minor changes in response to referee reports, references updated.Comment: 9 pages, 8 figure
Low-loss, circularly-polarized dichroic plate
Dichroic plate has orthogonally-disposed, loaded dipole apertures with their orientations arranged so as to cancel cross-coupling effects which would otherwise result in power loss to circularly polarized signal
Spiral groove seal
Mating flat surfaces inhibit leakage of a fluid around a stationary shaft. A spiral groove produces a pumping action toward the fluid when the shaft rotates. This prevents leakage while a generated hydraulic lifting force separates the mating surfaces to minimize wear. Provision is made for placing these spiral grooves in communication with the fluid to accelerate the generation of the hydraulic lifting force
Improved circumferential shaft seal
Comparative tests of modified and unmodified carbon ring seals showed that addition of helical grooves to conventional segmented carbon ring seals reduced leakage significantly. Modified seal was insensitive to shaft runout and to flooding by lubricant
Low loss dichroic plate
A low loss dichroic plate is disclosed for passing radiation within a particular frequency band and reflecting radiation outside of that frequency band. The dichroic plate is comprised of a configuration of dipole elements defined by slots formed in a conductive plate. The slots are dimensioned so as to pass radiation of a selected frequency and are shaped so as to minimize the relationship between that frequency and the tilt angle of the plate relative to the direction of radiation. The slots are arranged so as to minimize signal power loss due to cross polarization effects
Improved circumferential shaft seal for aircraft gear transmissions
Operation under simulated aircraft transmission conditions of speeds to 2850 m/min (9350 ft/min), lubricant temperatures to 394 K (250 F), shaft radial runouts to 0.254 mm (0.010 in.) F.I.R. (full indicator reading), and pressure differentials to 1.03 N/cm2 (1.5 psi) revealed that conventional circumferential seals leaked excessively. Modifying the conventional seal by adding helical grooves to the seal bore reduced leakage rates to within the acceptable level of 10 cm3/hr. The leakage rate of this modified seal was not significantly affected by lubricant flooding or by shaft radial runout
Digital computer analysis and design of a subreflector of complex shape
Digital computer technique for computing scattered pattern of complex hyperboloid subreflector in Cassegrain antenna feed system
Stochastic Generation of Particle Structures with Controlled Degree of Heterogeneity
The recently developed void expansion method (VEM) allows for an efficient
generation of porous packings of spherical particles over a wide range of
volume fractions. The method is based on a random placement of the structural
particles under addition of much smaller "void-particles" whose radii are
repeatedly increased during the void expansion. Thereby, they rearrange the
structural particles until formation of a dense particle packing and introduce
local heterogeneities in the structure. In this paper, microstructures with
volume fractions between 0.4 and 0.6 produced by VEM are analyzed with respect
to their degree of heterogeneity (DOH). In particular, the influence of the
void- to structural particle number ratio, which constitutes a principal
VEM-parameter, on the DOH is studied. The DOH is quantified using the pore size
distribution, the Voronoi volume distribution and the density-fluctuation
method in conjunction with fit functions or integral measures. This analysis
has revealed that for volume fractions between 0.4 and 0.55 the void-particle
number allows for a quasi-continuous adjustment of the DOH. Additionally, the
DOH-range of VEM-generated microstructures with a volume fraction of 0.4 is
compared to the range covered by microstructures generated using previous
Brownian dynamics simulations, which represent the structure of coagulated
colloidal suspensions. Both sets of microstructures cover similarly broad and
overlapping DOH-ranges, which allows concluding that VEM is an efficient method
to stochastically reproduce colloidal microstructures with varying DOH.Comment: 10 pages, 7 figure
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