3,590 research outputs found
A geometric view of cryptographic equation solving
This paper considers the geometric properties of the Relinearisation algorithm and of the XL algorithm used in cryptology for equation solving. We give a formal description of each algorithm in terms of projective geometry, making particular use of the Veronese variety. We establish the fundamental geometrical connection between the two algorithms and show how both algorithms can be viewed as being equivalent to the problem of finding a matrix of low rank in the linear span of a collection of matrices, a problem sometimes known as the MinRank problem. Furthermore, we generalise the XL algorithm to a geometrically invariant algorithm, which we term the GeometricXL algorithm. The GeometricXL algorithm is a technique which can solve certain equation systems that are not easily soluble by the XL algorithm or by Groebner basis methods
Resistive transport in a mesoscopic proximity superconductor
We review transport measurements in a normal metal (N) in contact with one or
two superconducting (S) islands. From the experiment, we distinguish the
Josephson coupling, the mesoscopic fluctuations and the proximity effect. In a
loop-shaped N conductor, we observe large h/2e-periodic magnetoresistance
oscillations that decay with temperature T with a 1/T power-law. This behaviour
is the signature of the long-range coherence of the low-energy electron pairs
induced by the Andreev reflection at the S interface. At temperature and
voltage below the Thouless energy , we observe the re-entrance
of the metallic resistance. Experimental results agree with the linearized
quasiclassical theory.Comment: 8 pages, 6 included epsf figures, Invited paper at the LT21
Conference, Praha, August 1996. To appear in Czech. J. of Phys. 46, Part S6
(1996
Characterisation of the Etching Quality in Micro-Electro-Mechanical Systems by Thermal Transient Methodology
Our paper presents a non-destructive thermal transient measurement method
that is able to reveal differences even in the micron size range of MEMS
structures. Devices of the same design can have differences in their
sacrificial layers as consequence of the differences in their manufacturing
processes e.g. different etching times. We have made simulations examining how
the etching quality reflects in the thermal behaviour of devices. These
simulations predicted change in the thermal behaviour of MEMS structures having
differences in their sacrificial layers. The theory was tested with
measurements of similar MEMS devices prepared with different etching times. In
the measurements we used the T3Ster thermal transient tester equipment. The
results show that deviations in the devices, as consequence of the different
etching times, result in different temperature elevations and manifest also as
shift in time in the relevant temperature transient curves.Comment: Submitted on behalf of TIMA Editions
(http://irevues.inist.fr/tima-editions
Circuit approach to photonic heat transport
We discuss the heat transfer by photons between two metals coupled by a
linear element with a reactive impedance. Using a simple circuit approach, we
calculate the spectral power transmitted from one resistor to the other and
find that it is determined by the photon transmission coefficient, which
depends on the impedances of the metals and the coupling element. We study the
total photonic power flow for different coupling impedances, both in the linear
regime, where the temperature difference between the metals is small, and in
the non-linear regime of large temperature differences.Comment: 6 pages, 6 figure
Public good in French universities: principles and practice of the ‘republican’ model
Drawing on 45 semi-structured interviews conducted in four public universities as part of an international comparative project, we examine the cultural, political, social and economic forces at play in the way the ‘public good’ is perceived, translated and debated within the French higher education context. Our findings indicate that a variety of views of the public good value/contribution of higher education co-exist, which, in a context of reform, reflect various understandings of how the principles and practices driving the French ‘republican’ model work or should work
Poly(acrylic acid)-coated iron oxide nanoparticles : quantitative evaluation of the coating properties and applications for the removal of a pollutant dye
In this work, 6 to 12 nm iron oxide nanoparticles were synthesized and coated
with poly(acrylic acid) chains of molecular weight 2100 g/mol. Based on a
quantitative evaluation of the dispersions, the bare and coated particles were
thoroughly characterized. The number densities of polymers adsorbed at the
particle surface and of available chargeable groups were found to be 1.9 +/-
0.3 nm-2 and 26 +/- 4 nm-2, respectively. Occurring via a multi-site binding
mechanism, the electrostatic coupling leads to a solid and resilient anchoring
of the chains. To assess the efficacy of the particles for pollutant
remediation, the adsorption isotherm of methylene blue molecules, a model of
pollutant, was determined. The excellent agreement between the predicted and
measured amounts of adsorbed dyes suggests that most carboxylates participate
to the complexation and adsorption mechanisms. An adsorption of 830 mg/g was
obtained. This quantity compares well with the highest values available for
this dye.Comment: 14 pages 5 figures, accepted 06-Dec-2012; Journal of Colloid and
Interface Science (2013
Spatially-Correlated Microstructure and Superconductivity in Polycrystalline Boron-Doped Diamond
Scanning tunneling spectroscopies are performed below 100~mK on
nano-crystalline boron-doped diamond films characterized by Transmission
Electron Microscopy and transport measurements. We demonstrate a strong
correlation between the local superconductivity strength and the granular
structure of the films. The study of the spectral shape, amplitude and
temperature dependence of the superconductivity gap enables us to differentiate
intrinsically superconducting grains that follow the BCS model, from grains
showing a different behavior involving the superconducting proximity effect
Niobium-based superconducting nano-devices fabrication using all-metal suspended masks
We report a novel method for the fabrication of superconducting nanodevices
based on niobium. The well-known difficulties of lithographic patterning of
high-quality niobium are overcome by replacing the usual organic resist mask by
a metallic one. The quality of the fabrication procedure is demonstrated by the
realization and characterization of long and narrow superconducting lines and
niobium-gold-niobium proximity SQUIDs
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