32,827 research outputs found
Designing Geotextile Support for Submarine Power Cables
Six 36 cm diameter submarine pipe-cables were buried in a 1.2 km long, fabric-lined trench in the soft river mud under 17 m average water head across the Hudson River about 4.8 km north of the Newburgh Bridge, New York. This paper describes the design considerations based on geotechnical point of view of using geotextile to support submarine power cables
Peeling from a patterned thin elastic film
Inspired by the observation that many naturally occurring adhesives arise as
textured thin films, we consider the displacement controlled peeling of a
flexible plate from an incision-patterned thin adhesive elastic layer. We find
that crack initiation from an incision on the film occurs at a load much higher
than that required to propagate it on a smooth adhesive surface; multiple
incisions thus cause the crack to propagate intermittently. Microscopically,
this mode of crack initiation and propagation in geometrically confined thin
adhesive films is related to the nucleation of cavitation bubbles behind the
incision which must grow and coalesce before a viable crack propagates. Our
theoretical analysis allows us to rationalize these experimental observations
qualitatively and quantitatively and suggests a simple design criterion for
increasing the interfacial fracture toughness of adhesive films.Comment: 8 pages, To appear in Proceedings of Royal Society London, Ser.
Upper Bounds for the Critical Car Densities in Traffic Flow Problems
In most models of traffic flow, the car density is the only free
parameter in determining the average car velocity . The
critical car density , which is defined to be the car density separating
the jamming phase (with ) and the moving phase (with
), is an important physical quantity to investigate. By
means of simple statistical argument, we show that for the
Biham-Middleton-Levine model of traffic flow in two or higher spatial
dimensions. In particular, we show that in 2 dimension and
in () dimensions.Comment: REVTEX 3.0, 5 pages with 1 figure appended at the back, Minor
revision, to be published in the Sept issue of J.Phys.Soc.Japa
Simulating Auxiliary Inputs, Revisited
For any pair of correlated random variables we can think of as a
randomized function of . Provided that is short, one can make this
function computationally efficient by allowing it to be only approximately
correct. In folklore this problem is known as \emph{simulating auxiliary
inputs}. This idea of simulating auxiliary information turns out to be a
powerful tool in computer science, finding applications in complexity theory,
cryptography, pseudorandomness and zero-knowledge. In this paper we revisit
this problem, achieving the following results:
\begin{enumerate}[(a)] We discuss and compare efficiency of known results,
finding the flaw in the best known bound claimed in the TCC'14 paper "How to
Fake Auxiliary Inputs". We present a novel boosting algorithm for constructing
the simulator. Our technique essentially fixes the flaw. This boosting proof is
of independent interest, as it shows how to handle "negative mass" issues when
constructing probability measures in descent algorithms. Our bounds are much
better than bounds known so far. To make the simulator
-indistinguishable we need the complexity in time/circuit size, which is better by a
factor compared to previous bounds. In particular, with our
technique we (finally) get meaningful provable security for the EUROCRYPT'09
leakage-resilient stream cipher instantiated with a standard 256-bit block
cipher, like .Comment: Some typos present in the previous version have been correcte
Carrier-mediated antiferromagnetic interlayer exchange coupling in diluted magnetic semiconductor multilayers GaMnAs/GaAs:Be
We use neutron reflectometry to investigate the interlayer exchange coupling
between GaMnAs ferromagnetic semiconductor layers separated
by non-magnetic Be-doped GaAs spacers. Polarized neutron reflectivity measured
below the Curie temperature of GaMnAs reveals a
characteristic splitting at the wave vector corresponding to twice the
multilayer period, indicating that the coupling between the ferromagnetic
layers are antiferromagnetic (AFM). When the applied field is increased to
above the saturation field, this AFM coupling is suppressed. This behavior is
not observed when the spacers are undoped, suggesting that the observed AFM
coupling is mediated by charge carriers introduced via Be doping. The behavior
of magnetization of the multilayers measured by DC magnetometry is consistent
with the neutron reflectometry results.Comment: 4 pages, 4 figure
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