Search results for "Dimension"

showing 10 items of 2766 documents

All Master Integrals for Three-Jet Production at Next-to-Next-to-Leading Order

2019

We evaluate analytically all previously unknown nonplanar master integrals for massless five-particle scattering at two loops, using the differential equations method. A canonical form of the differential equations is obtained by identifying integrals with constant leading singularities, in D space-time dimensions. These integrals evaluate to Q-linear combinations of multiple polylogarithms of uniform weight at each order in the expansion in the dimensional regularization parameter and are in agreement with previous conjectures for nonplanar pentagon functions. Our results provide the complete set of two-loop Feynman integrals for any massless 2→3 scattering process, thereby opening up a ne…

PhysicsJet (mathematics)530 PhysicsDifferential equationGeneral Physics and Astronomy10192 Physics Institute01 natural sciences3100 General Physics and AstronomyMassless particleDimensional regularizationSingularity0103 physical sciencesGravitational singularityCanonical form010306 general physicsConstant (mathematics)Mathematical physicsPhysical Review Letters
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Vectorial Kerr-cavity solitons.

2000

It is shown that a Kerr cavity with different losses for the two polarization components of the field can support both dark and bright cavity solitons (CS’s). A parametrically driven Ginzburg–Landau equation is shown to describe the system for large-cavity anisotropy. In one transverse dimension the nonlinear dynamics of the bright CS’s is numerically investigated.

PhysicsKerr effectbusiness.industryNumerical analysisPhysics::OpticsAstrophysics::Cosmology and Extragalactic AstrophysicsPolarization (waves)Atomic and Molecular Physics and OpticsNonlinear systemOpticsLight propagationPhysics::Accelerator PhysicsTransverse dimensionbusinessAnisotropyNonlinear Sciences::Pattern Formation and SolitonsOptics letters
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Fluctuations in mesoscopic systems

1992

Abstract Electronic wavefunctions in weakly disordered systems have been studied within the Anderson model of localization. The eigenstates calculated by means of the Lanczos diagonalization algorithm display characteristic spatial fluctuations that can be described by a multifractal analysis. For increasing disorder or energy the observed curdling of the wavefunction reflects the stronger localization, but no exponential decay can be observed. This is reflected in the set of generalized fractal dimensions and the singularity spectrum of the fractal measure.

PhysicsLanczos resamplingMesoscopic physicsFractalGeneral Chemical EngineeringQuantum mechanicsGeneral Physics and AstronomyMultifractal systemExponential decaySingularity spectrumCondensed Matter::Disordered Systems and Neural NetworksAnderson impurity modelFractal dimensionPhilosophical Magazine B
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Multidimensional Analysis of the Distribution of Galaxies with Different Luminosity

1989

We have used the multidimensional or multifractal formalism to study the large scale luminosity segregation of the CfA catalogue. In every sample we have analyzed, it has been found that the spectrum of scaling indices is scale invariant and that bright galaxies are more clustered than faint galaxies.

PhysicsLuminous infrared galaxyMultidimensional analysisScale (ratio)Astrophysics::High Energy Astrophysical PhenomenaAstronomyAstrophysics::Cosmology and Extragalactic AstrophysicsScale invarianceScalingAstrophysics::Galaxy AstrophysicsGalaxyLuminosity function (astronomy)Luminosity
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Very large magnetoresistance inFe0.28TaS2single crystals

2015

There is great interest in understanding the physics of magnetic ordering and electronic transport in materials of reduced dimensionality with strong spin-orbit coupling. This paper presents magnetotransport measurements of Fe${}_{0.28}$TaS${}_{2}$ single crystals, which are found to exhibit very large magnetoresistance (MR) for magnetic fields along the easy axis. The authors believe that such a large MR arises from spin disorder scattering and propose to use this mechanism as a design principle for materials with large MR. Further tests are needed to fully rule out contributions from a more conventional anisotropic MR mechanism.

PhysicsMagnetic anisotropyCondensed matter physicsMagnetoresistanceScatteringCondensed Matter PhysicsAnisotropyCoupling (probability)Electronic Optical and Magnetic MaterialsMagnetic fieldCurse of dimensionalitySpin-½Physical Review B
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2016

The wealth of sensory data coming from different modalities has opened numerous opportunities for data analysis. The data are of increasing volume, complexity and dimensionality, thus calling for new methodological innovations towards multimodal data processing. However, multimodal architectures must rely on models able to adapt to changes in the data distribution. Differences in the density functions can be due to changes in acquisition conditions (pose, illumination), sensors characteristics (number of channels, resolution) or different views (e.g. street level vs. aerial views of a same building). We call these different acquisition modes domains, and refer to the adaptation problem as d…

PhysicsManifold alignmentMultidisciplinaryTheoretical computer science0211 other engineering and technologiesCognitive neuroscience of visual object recognition02 engineering and technologyBioinformaticsManifoldKernel methodDiscriminative modelKernel (statistics)0202 electrical engineering electronic engineering information engineering020201 artificial intelligence & image processingCanonical correlation021101 geological & geomatics engineeringCurse of dimensionalityPLOS ONE
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Positioning in a flat two-dimensional space-time

2008

The basic theory on relativistic positioning systems in a two-dimensional space-time and the analysis of the possibility of making relativistic gravimetry with these systems have been presented elsewhere [Phys. Rev. D 73 , 084017 (2006); Phys. Rev. D 74 , 104003 (2006)]. Here we summarize these results and we outline new issues on the relativistic positioning systems in Minkowski plane. We point out that the accelerations of the emitters and of the user along their trajectories are determined by the sole knowledge of the emitter positioning data and of the acceleration of only one of the emitters and only during a light echo interval.

PhysicsMathematical analysisGeneral EngineeringAstronomy and AstrophysicsMinkowski planeAccelerationTwo-dimensional spaceSpace and Planetary ScienceLight echoPhysics::Accelerator PhysicsInterval (graph theory)Point (geometry)GravimetryCommon emitterEAS Publications Series
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Electronic States in Mesoscopic Systems

1992

Abstract Electronic states in disordered systems are studied within the Anderson model of localization. By means of the Green's function technique we derive the transmission coefficient for electronic states through mesoscopic samples. The transmission coefficient is shown to be not self-averaging due to strong spatial fluctuations of the amplitude of the eigenstates, which are obtained by direct diagonalization of the respective secular matrices. The wave functions display a multifractal behaviour, characterized by the set of generalized fractal dimensions and the singularity spectrum of the fractal measure.

PhysicsMesoscopic physicsFractalCondensed matter physicsMultifractal systemTransmission coefficientStatistical physicsCondensed Matter PhysicsSingularity spectrumFractal dimensionMeasure (mathematics)Anderson impurity modelMolecular Crystals and Liquid Crystals Science and Technology. Section A. Molecular Crystals and Liquid Crystals
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Two-dimensional spectroscopy for the study of ion Coulomb crystals

2015

Ion Coulomb crystals are currently establishing themselves as a highly controllable test-bed for mesoscopic systems of statistical mechanics. The detailed experimental interrogation of the dynamics of these crystals however remains an experimental challenge. In this work, we show how to extend the concepts of multi-dimensional nonlinear spectroscopy to the study of the dynamics of ion Coulomb crystals. The scheme we present can be realized with state-of-the-art technology and gives direct access to the dynamics, revealing nonlinear couplings even in the presence of thermal excitations. We illustrate the advantages of our proposal showing how two-dimensional spectroscopy can be used to detec…

PhysicsMesoscopic physicsQuantum PhysicsQuantum decoherenceCiencias FísicasNONLINEAR DYNAMICSFOS: Physical sciencesGeneral Physics and AstronomyStatistical mechanics//purl.org/becyt/ford/1.3 [https]Molecular physicsQUANTUM OPTICSIonCrystal//purl.org/becyt/ford/1 [https]AstronomíaNonlinear systemTRAPPED IONSTWO DIMENSIONAL SPECTROSCOPYAtomic physicsQuantum Physics (quant-ph)Quantum statistical mechanicsSpectroscopyCIENCIAS NATURALES Y EXACTAS
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Superresolution digital holographic microscopy for three-dimensional samples.

2009

An approach that allows superresolution imaging of three-dimensional (3-D) samples by numerical refocusing is presented in the field of digital holographic microscopy. Based on the object's spectrum shift produced by tilted illumination, we present a time multiplexing superresolved approach to overcome the Abbe's diffraction limit. The proposed approach uses a microscope in a Mach-Zehnder interferometric architecture with the particularity that the output plane does not coincide with the image plane. Thus, a set of off-axis non-image plane holograms are sequentially recorded for every tilted beam used in the illumination stage. After that and by using simple digital post-processing and nume…

PhysicsMicroscopyMicroscopebusiness.industryHolographyPhysics::OpticsReproducibility of ResultsSignal Processing Computer-AssistedEquipment DesignImage planeImage EnhancementSensitivity and SpecificityAtomic and Molecular Physics and Opticslaw.inventionLens (optics)Equipment Failure AnalysisInterferometryOpticsImaging Three-DimensionallawMicroscopyDigital holographic microscopybusinessDigital holographyOptics express
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