Search results for "BAND"

showing 10 items of 2610 documents

2019

We demonstrate experimentally ghost optical coherence tomography using a broadband incoherent supercontinuum light source with shot-to-shot random spectral fluctuations. The technique is based on ghost imaging in the spectral domain where the object is the spectral interference pattern generated from an optical coherence tomography interferometer in which a physical sample is placed. The axial profile of the sample is obtained from the Fourier transform of the correlation between the spectrally resolved intensity fluctuations of the supercontinuum and the integrated signal measured at the output of the interferometer. The results are in excellent agreement with measurements obtained from a …

Physicsmedicine.medical_specialtymedicine.diagnostic_testbusiness.industryPhysics::Optics02 engineering and technologyGhost imaging021001 nanoscience & nanotechnology01 natural sciencesSignalAtomic and Molecular Physics and OpticsSupercontinuumSpectral imaging010309 opticssymbols.namesakeInterferometryOpticsFourier transformOptical coherence tomography0103 physical sciencesBroadbandmedicinesymbols0210 nano-technologybusinessOptics Express
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The broad-band spectrum of Cyg X-2 with INTEGRAL

2005

We study the broad band (3-100 keV) spectrum of Cygnus X-2 with INTEGRAL. We find that the spectrum is well fitted by a Comptonized component with a seed-photons temperature of ~1 keV, an electron temperature of ~3 keV and an optical depth tau ~ 8. Assuming spherical geometry, the radius of the seed-photons emitting region is ~17 km. The source shows no hard X-ray emission; it was detected only at a 3 sigma level above 40 keV. We also analyzed public ISGRI data of Cyg X--2 to investigate the presence of a hard X-ray component. We report the possible presence of hard X-ray emission in one data set.

Physicsstars : individual : Cygnus X-2Astrophysics::High Energy Astrophysical PhenomenaAstrophysics (astro-ph)Spectrum (functional analysis)FOS: Physical sciencesBroad bandAstronomy and AstrophysicsRadiusAstrophysicsAstrophysicsaccretion accretion diskstars : neutronSpherical geometrySpace and Planetary Sciencebinaries : closeOptical depth (astrophysics)Electron temperatureclose; stars : individual : Cygnus X-2; stars : neutron [accretion accretion disks; binaries]
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Level-spacing distribution in the tight-binding model of fcc clusters.

1993

A lattice-gas Monte Carlo method is used to simulate metallic fcc clusters at finite temperatures. A tight-binding model including s and p electrons has been derived for reproducing the free-electron-like energy band for the bulk metal and this model is used for calculating the electronic structures of the fcc cluster. The resulting level-spacing distribution at the Fermi energy is a Wigner distribution. The width of the distribution in small clusters is smaller than that calculated from the bulk density of states. In the lattice gas clusters the energy gaps related to the electronic magic numbers do not show up at the Fermi level. The energy between the last occupied and the first unoccupi…

Physicssymbols.namesakeTight bindingCondensed matter physicsBinding energyFermi levelDensity of statessymbolsFermi energyLevel-spacing distributionElectronic band structureFermi gasPhysical review. B, Condensed matter
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Energy gap of intermediate-valentSmB6studied by point-contact spectroscopy

2001

We have investigated the intermediate valence narrow-gap semiconductor ${\mathrm{SmB}}_{6}$ at low temperatures using both conventional spear-anvil type point contacts as well as mechanically controllable break junctions. The zero-bias conductance varied between less than $0.01 \ensuremath{\mu}\mathrm{S}$ and up to 1 mS. The position of the spectral anomalies, which are related to the different activation energies and band gaps of ${\mathrm{SmB}}_{6},$ did not depend on the the contact size. Two different regimes of charge transport could be distinguished: Contacts with large zero-bias conductance are in the diffusive Maxwell regime. They had spectra with only small nonlinearities. Contacts…

Physicssymbols.namesakeValence (chemistry)Condensed matter physicsBand gapFermi levelsymbolsDensity of statesQuasiparticleConductanceAtomic physicsSpectroscopySpectral linePhysical Review B
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Cluster rotational bands in 11B

2016

Differential cross-sections of 11B+α inelastic scattering at E(α) = 65 MeV leading to most of the known 11B states at excitation energies up to 14 MeV were measured [1]. The data analysis was done using Modified diffraction model (MDM) [2] allowing determining radii of excited states. Radii of the states with excitation energies less than ∼ 7 MeV coincide with the radius of the ground state with an accuracy not less than 0.1 - 0.15 fm. This result is consistent with traditional view on shell structure of low-lying states in 11B. Most of the observed high-energy excited states are distributed among four rotational bands. Moments of inertia of band states are close to the moment of inertia of…

Physicsta114PhysicsQC1-999RadiusState (functional analysis)Inelastic scatteringMoment of inertiarotational bandscluster structureExcited stateCluster (physics)booriAtomic physicsboronGround stateExcitation
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Acoustic dynamics of network-forming glasses at mesoscopic wavelengths

2013

The lack of long-range structural order in amorphous solids induces well known thermodynamic anomalies, which are the manifestation of distinct peculiarities in the vibrational spectrum. Although the impact of such anomalies vanishes in the long wavelength, elastic continuum limit, it dominates at length scales comparable to interatomic distances, implying an intermediate transition regime still poorly understood. Here we report a study of such mesoscopic domains by means of a broadband version of picosecond photo-acoustics, developed to coherently generate and detect hypersonic sound waves in the sub-THz region with unprecedented sampling efficiency. We identify a temperature-dependent fra…

Physics::OpticsGeneral Physics and Astronomy02 engineering and technologyBioinformatics01 natural sciencesArticleGeneral Biochemistry Genetics and Molecular BiologyOpticsFractal0103 physical sciencesBroadband010306 general physicsPhysicsMesoscopic physicsMultidisciplinarybusiness.industryAttenuationDynamics (mechanics)General Chemistry021001 nanoscience & nanotechnologyMaterials sciencePhysical sciencesWavelengthPicosecond0210 nano-technologybusiness
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Mean-Field Game Modeling the Bandwagon Effect with Activation Costs

2015

This paper provides a mean-field game theoretic model of the bandwagon effect in social networks. This effect can be observed whenever individuals tend to align their own opinions to a mainstream opinion. The contribution is threefold. First, we describe the opinion propagation as a mean-field game with local interactions. Second, we establish mean-field equilibrium strategies in the case where the mainstream opinion is constant. Such strategies are shown to have a threshold structure. Third, we extend the use of threshold strategies to the case of time-varying mainstream opinion and study the evolution of the macroscopic system.

Physics::Physics and SocietyStatistics and Probability0209 industrial biotechnologyEconomics and Econometrics02 engineering and technologyMean-field gamesMean field gameActivation costs; Bandwagon effect; Games with infinitely many players; Mean-field games; Mode; Threshold policies;01 natural sciencesActivation costs010305 fluids & plasmasMicroeconomics020901 industrial engineering & automationOpinion dynamicsGames with infinitely many players; Bandwagon effect; Activation costs; Threshold policies; Mean-field games; ModeMean-field game0103 physical sciencesEconomicsThreshold policiesMainstreamBandwagon effectStructure (mathematical logic)Game theoreticApplied MathematicsMode (statistics)Computer Science::Social and Information NetworksComputer Graphics and Computer-Aided DesignComputer Science ApplicationsComputational MathematicsActivation costComputational Theory and MathematicsGames with infinitely many playersGames with infinitely many playerModeSettore MAT/09 - Ricerca OperativaConstant (mathematics)Threshold policieMathematical economicsBandwagon effectDynamic Games and Applications
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Space variant vision and pipelined architecture for time to impact computation

2002

Image analysis is one of the most interesting ways for a mobile vehicle to understand its environment. One of the tasks of an autonomous vehicle is to get accurate information of what it has in front, to avoid collision or find a way to a target. This task requires real-time restrictions depending on the vehicle speed and external object movement. The use of normal cameras, with homogeneous (squared) pixel distribution, for real-time image processing, usually requires high performance computing and high image rates. A different approach makes use of a CMOS space-variant camera that yields a high frame rate with low data bandwidth. The camera also performs the log-polar transform, simplifyin…

PixelComputer sciencebusiness.industryComputationBandwidth (signal processing)ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISIONImage processingRemotely operated underwater vehicleFrame rateComputer Science::Computer Vision and Pattern RecognitionDigital image processingComputer visionArtificial intelligencebusinessField-programmable gate array
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On the Advantages of Asynchronous Pixel Reading and Processing for High-Speed Motion Estimation

2008

Biological visual systems are becoming an interesting source for the improvement of artificial visual systems. A biologically inspired read-out and pixel processing strategy is presented. This read-out mechanism is based on Selective pixel Change-Driven (SCD) processing. Pixels are individually processed and read-out instead of the classical approach where the read-out and processing is based on complete frames. Changing pixels are read-out and processed at short time intervals. The simulated experiments show that the response delay using this strategy is several orders of magnitude lower than current cameras while still keeping the same, or even tighter, bandwidth requirements.

PixelOrders of magnitude (time)Asynchronous communicationbusiness.industryComputer scienceReading (computer)Bandwidth (signal processing)Computer visionArtificial intelligencebusinessResponse delaySpeed (motion)
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Tunable defects in colloidal photonic crystals

2006

We present a bottom-up approach for the construction of tunable functional defects in colloidal photonic crystals (CPCs). These structures incorporate polyelectrolyte multilayer (PEM) planar defects embedded in silica CPCs through a combination of evaporation induced self-assembly and microcontact transfer printing. We show how the enormous chemical diversity inherent to PEMs can be harnessed to create chemically active defect structures responsive to solvent vapor pressures, light, temperature as well as redox cycling. A sharp transmission state within the photonic stopband, induced by the PEM defect, can be precisely, reproducibly and in some cases reversibly tuned by these external stimu…

PlanarMaterials scienceTransfer printingbusiness.industryNanotechnologySelf-assemblyStopbandPhotonicsbusinessEvaporation (deposition)Tunable laserPhotonic crystalSPIE Proceedings
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