Search results for "Roca"

showing 10 items of 1893 documents

Gain Dynamics after Ultrashort Pulse Trains in Quantum Dot based Semiconductor Optical Amplifiers

2007

We study the gain dynamics in QD-based SOAs after excitation with fs-pulse trains of up to THz repetition rates. A complete ground-state gain recovery is found for 200 GHz repetition rates and injection currents around 90 mA.

PhysicsOptical amplifierbusiness.industryOptical microcavitySemiconductor laser theorylaw.inventionOpticsQuantum dot laserQuantum dotlawOptoelectronicsSemiconductor optical gainPhotonicsbusinessUltrashort pulse
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Modeling the energy thermalization of X-ray photons in a microcalorimeter with superconducting absorber

2003

We present a modeling of the response of a microcalorimeter to the absorption of X-ray photons, based on the main microscopical processes responsible for the energy thermalization. In particular, we have modeled a microcalorimeter with superconducting tin absorber (350 micron x 350 micron x 7 micron) and neutron transmutation doped (NTD) germanium thermistor (75 micron x 50 micron x 150 micron). Such a detector, operated at 60 mK, is expected to achieve a spectral resolution as good as 1 eV FWHM in the soft X-ray energy range, based on the known sources of thermal and electronic noise. Nevertheless, the best spectral resolution measured in laboratory experimental tests is of about 5 eV FWHM…

PhysicsRange (particle radiation)PhotonPhysics::Instrumentation and DetectorsPhononbusiness.industrychemistry.chemical_elementGermaniumThermalizationCondensed Matter PhysicsOpticsThermalisationchemistryMicrocalorimeterX-ray spectroscopyNeutronAtomic physicsSpectral resolutionElectrical and Electronic EngineeringbusinessAbsorption (electromagnetic radiation)
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Unidirectional reflection from an integrated "taiji" microresonator

2020

We study light transmission and reflection from an integrated microresonator device, formed by a circular microresonator coupled to a bus waveguide, with an embedded S-shaped additional crossover waveguide element that selectively couples counter-propagating modes in a propagation-direction-dependent way. The overall shape of the device resembles a "taiji"symbol, hence its name. While Lorentz reciprocity is preserved in transmission, the peculiar geometry allows us to exploit the non-Hermitian nature of the system to obtain high-contrast unidirectional reflection with negligible reflection for light incident in one direction and a significant reflection in the opposite direction.

PhysicsReciprocity; photonic device; microcavityLight transmissionbusiness.industryLorentz transformationCrossoverPhysics::Optics02 engineering and technologyÒptica021001 nanoscience & nanotechnology01 natural sciencesAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic Materials010309 opticssymbols.namesakeOpticsReciprocity (electromagnetism)0103 physical sciencessymbols0210 nano-technologybusiness
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Comparison of complex fractionated atrial electrograms at cellular scale using numerical and experimental models.

2010

This study investigates the existence of the pseudo complex fractionated atrial electrogram (CFAE) at cellular level. Our assumptions are based on the fact that CFAEs are linked to the generation of the spiral waves. These are created using a numerical model and an experimental model of in vitro culture of neonatal rats cardiac cells. Pseudo bipolar electrograms resulting from these two models are compared qualitatively and some patterns could be identified as CFAE signature.

PhysicsScale (ratio)Experimental modelModels CardiovascularAction PotentialsNumerical modelsCellular levelElectrocardiographyBiological ClocksHeart Conduction SystemAtrial FibrillationAnimalsHumansComputer SimulationMyocytes CardiacHeart AtriaBiological systemCellular biophysicsBiomedical engineeringAnnual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Annual International Conference
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Microscopic theory of glassy dynamics and glass transition for molecular crystals.

2004

We derive a microscopic equation of motion for the dynamical orientational correlators of molecular crystals. Our approach is based upon mode coupling theory. Compared to liquids we find four main differences: (i) the memory kernel contains Umklapp processes, (ii) besides the static two-molecule orientational correlators one also needs the static one-molecule orientational density as an input, where the latter is nontrivial, (iii) the static orientational current density correlator does contribute an anisotropic, inertia-independent part to the memory kernel, (iv) if the molecules are assumed to be fixed on a rigid lattice, the tensorial orientational correlators and the memory kernel have …

PhysicsStatistical Mechanics (cond-mat.stat-mech)Condensed matter physicsFOS: Physical sciencesEquations of motionCondensed Matter - Soft Condensed MatterAtomic packing factorBrillouin zoneReciprocal latticeMode couplingSoft Condensed Matter (cond-mat.soft)Microscopic theoryAnisotropyGlass transitionCondensed Matter - Statistical MechanicsPhysical review. E, Statistical, nonlinear, and soft matter physics
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Thermalization efficiency of superconducting absorbers for thermal X-ray microcalorimeters

2004

The persistence of long living quasiparticles created in the energy thermalization process can affect the performances of a thermal X-ray microcalorimeter with superconducting absorber. Numerical simulations indicate that in an ab- sorber made of high-purity Sn, operated at temperatures lower than 100 mK, up to 60% of the deposited energy can remain trapped in the quasiparticle system for a time much longer than the time scale of the thermal sensor response, producing a reduction of the SNR of the detector. Other pure superconductors can present the same problem and therefore a microscopic analysis of the physical properties can be useful to identify suitable absorbing materials and optimiz…

PhysicsSuperconductivityCondensed matter physicsPhononDetectorQuasiparticleEnergy Engineering and Power TechnologyTrappingCondensed Matter PhysicsSuperconducting absorberElectronic Optical and Magnetic MaterialsComputational physicsThermalisation: MicrocalorimeterThermalQuasiparticlePhononsElectrical and Electronic EngineeringComputer Science::DatabasesEnergy (signal processing)Physica C: Superconductivity
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Spectral broadening by quasiparticle pile-up in X-ray microcalorimeters with superconducting absorbers

2004

Long-living quasiparticles can pile-up in a superconducting absorber of an X-ray microcalorimeter when photons are detected at high count rate. These quasiparticles can give a non-negligible contribution to the total heat capacity of the detector thus affecting the pulse height spectrum of detected photons. We investigated this effect with numerical simulations and evaluated the resulting spectral broadening as a function of the photon absorption rate, and the heat capacity of the detector for a NTD germanium microcalorimeter with pure Sn absorber.

PhysicsSuperconductivityNuclear and High Energy PhysicsPhotonCondensed matter physicsPhysics::Instrumentation and DetectorsDetectorX-raychemistry.chemical_elementGermaniummicrocalorimeterHeat capacitychemistryX-ray spectroscopyQuasiparticlesuperconducting absorbersAtomic physicsInstrumentationDoppler broadeningNuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
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Test of x-ray microcalorimeters with bilayer absorbers

2008

Superconducting absorbers for thermal X-ray microcalorimeters should convert into thermalized phonons and transfer to the thermal sensor most of the energy deposited by single photons, on a time scale as short as a few tens of microseconds. Since deposition of X-ray energy in a superconductor produces quasiparticles by breaking up of Cooper pairs, the thermalization efficiency depends on the time scale on which they survive within the absorber volume, trapping part of the absorbed energy. According to the predicted values of their microscopic parameters, in many standard type-I superconducting metals the quasiparticle life time at very low temperatures results too long to allow for recombin…

PhysicsSuperconductivityPhotonCondensed matter physicsPhononTantalumchemistry.chemical_elementX-Ray Detectors Spectroscopy MicrocalorimetersThermalisationchemistryCondensed Matter::SuperconductivityThermalQuasiparticleCooper pairSPIE Proceedings
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Spectral broadening by incomplete thermalization of the energy in X-ray microcalorimeters with superconducting absorber and NTD-Ge thermal sensor

2004

Abstract We present a model of the response of a cryogenic microcalorimeter with superconducting absorber and phonon sensitive thermal sensor to the absorption of X-ray photons. The model is based on the main microscopic processes responsible for the thermalization of the deposited energy. We use a system of rate equations to describe the energy downconversion in the superconductor and transport to the thermal sensor. The model is a tool to investigate the thermalization efficiency with respect to the device characteristics (i.e. absorber material, geometry), in order to optimize the performances of these detectors. As a first case study, we report results of simulations for a microcalorime…

PhysicsSuperconductivityquasi-particleNuclear and High Energy PhysicsPhotonbusiness.industryPhononx-ray spectroscopymicrocalorimeterParticle detectorgermaniumThermalisationOpticsCondensed Matter::Superconductivitynumerical simulationNeutronAtomic physicsAbsorption (electromagnetic radiation)businessInstrumentationDoppler broadening
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Interrogation of whispering-gallery modes resonances in cylindrical microcavities by backreflection detection

2009

The excitation of whispering-gallery-mode resonances of cylindrical microcavities, using narrow fiber tapers, produces simultaneously the excitation of spiral modes. The power coupled to the spiral modes leads to a significant broadening of the dips observed in the spectrum of light transmitted through the taper. We demonstrate that whispering-gallery modes resonances of cylindrical microcavities can also be interrogated by measuring the reflection spectrum. Unlike the dips observed in transmission, the peaks in the reflection spectrum are symmetric and narrower than the corresponding transmission dips.

PhysicsTotal internal reflectionbusiness.industryPhysics::OpticsResonanceOptical microcavityAtomic and Molecular Physics and Opticslaw.inventionResonatorOpticslawOptical circulatorWhispering-gallery waveReflection coefficientbusinessExcitation
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