Search results for "Clusters"

showing 10 items of 1274 documents

Effect of Halogen Ions on the Photocycle of Fluorescent Carbon Nanodots

2019

Carbon dots (C-dots) are well-known for their strong sensitivity to the environment, which reflects on intensity and shape changes of their fluorescence, induced by various interacting ions and molecules in solution. Although these interactions have been extensively studied in the last few years, especially in view of their possible sensing applications, the existing works have mostly focused on the quenching of C-dot fluorescence induced by metal cations. In fact, these latter easily bind to C-dots surfaces, which are negatively charged in most cases, promoting an electron transfer from the surface to them. Much less is known from the literature on the effect induced on C-dots by prototypi…

Photoluminescencequenchingfluorescence quenching02 engineering and technology010402 general chemistryPhotochemistryultrafast transient absorption01 natural sciencesIonlcsh:QD241-441lcsh:Organic chemistrycarbon nanodotheavy atom effectPhysics::Atomic and Molecular ClustersMoleculecarbon nanodotsQuenching (fluorescence)ChemistrySettore FIS/01 - Fisica SperimentaleGeneral Medicine021001 nanoscience & nanotechnologyFluorescence0104 chemical sciencesIntersystem crossingHalogenAbsorption (chemistry)0210 nano-technologyC
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Search for multiwavelength emission from the binary millisecond pulsar PSR J1836-2354A in the globular cluster M22

2019

We present a multi-band search for X-ray, optical and $\gamma$-ray emission of the radio binary millisecond pulsar J1836-2354A, hosted in the globular cluster M22. X-ray emission is significantly detected in two Chandra observations, performed in 2005 and 2014, at a luminosity of $\sim$2-3$\times$10$^{30}$ erg s$^{-1}$, in the 0.5-8 keV energy range. The radio and the X-ray source positions are found consistent within 1$\sigma$ error box. No detection is found in archival XMM-Newton and Swift/XRT observations, compatible with the Chandra flux level. The low statistics prevents us to assess if the X-ray source varied between the two observations. The X-ray spectrum is consistent with a power…

PhotonAstrophysics::High Energy Astrophysical PhenomenaFOS: Physical sciencesBinary numberFluxAstrophysicsAstrophysics::Cosmology and Extragalactic Astrophysics01 natural sciencesLuminosityX-rays: binariesMillisecond pulsarpulsars: general0103 physical sciences010303 astronomy & astrophysicsX-rays: individual: PSR J1836-2354AAstrophysics::Galaxy AstrophysicsHigh Energy Astrophysical Phenomena (astro-ph.HE)Physics010308 nuclear & particles physicsglobular clusters: individual: M22 (NGC 6656)Astronomy and AstrophysicsX-rays: binarie13. Climate actionSpace and Planetary ScienceGlobular clusterNo detectionAstrophysics - High Energy Astrophysical Phenomena[PHYS.ASTR]Physics [physics]/Astrophysics [astro-ph]Energy (signal processing)
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Multichannel Multiphoton Ionization of the Hydrogen Atom by a Chaotic Field: Role of the Polarization

1988

This contribution is concerned with the theory of ionization of atoms by strong laser fields, when ionization channels of different photon multiplicity are simultaneously open. Presently, this process is attracting a lot of attention, from both the experimental and theoretical sides.

PhotonChemistryChaoticHydrogen atomPolarization (waves)LaserMolecular physicslaw.inventionlawIonizationPhysics::Atomic and Molecular ClustersPhysics::Atomic PhysicsMultiplicity (chemistry)Atomic physics
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Photoelectrical detection of electron spin resonance of nitrogen-vacancy centres in diamond

2015

The protocols for the control and readout of Nitrogen Vacancy (NV) centres electron spins in diamond offer an advanced platform for quantum computation, metrology and sensing. These protocols are based on the optical readout of photons emitted from NV centres, which process is limited by the yield of photons collection. Here we report on a novel principle for the detection of NV centres magnetic resonance in diamond by directly monitoring spin-preserving electron transitions through measurement of NV centre related photocurrent. The demonstrated direct detection technique offers a sensitive way for the readout of diamond NV sensors and diamond quantum devices on diamond chips. The Photocurr…

PhotonGeneral Physics and AstronomyFOS: Physical sciences02 engineering and technologyElectronengineering.material01 natural sciencesGeneral Biochemistry Genetics and Molecular BiologyArticlelaw.inventionCondensed Matter::Materials Sciencequant-phlawIonizationcond-mat.mes-hall0103 physical sciencesMesoscale and Nanoscale Physics (cond-mat.mes-hall)Physics::Atomic and Molecular Clusters010306 general physicsElectron paramagnetic resonancePhysicsPhotocurrentCondensed Matter - Materials ScienceQuantum PhysicsMultidisciplinaryCondensed Matter - Mesoscale and Nanoscale Physicsbusiness.industryDiamondMaterials Science (cond-mat.mtrl-sci)General ChemistryPhotoelectric effect021001 nanoscience & nanotechnologycond-mat.mtrl-sciengineeringOptoelectronicsCharge carrierAtomic physics0210 nano-technologybusinessQuantum Physics (quant-ph)
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Nanosecond-level time synchronization of autonomous radio detector stations for extensive air showers

2016

To exploit the full potential of radio measurements of cosmic-ray air showers at MHz frequencies, a detector timing synchronization within 1 ns is needed. Large distributed radio detector arrays such as the Auger Engineering Radio Array (AERA) rely on timing via the Global Positioning System (GPS) for the synchronization of individual detector station clocks. Unfortunately, GPS timing is expected to have an accuracy no better than about 5 ns. In practice, in particular in AERA, the GPS clocks exhibit drifts on the order of tens of ns. We developed a technique to correct for the GPS drifts, and an independent method is used to cross-check that indeed we reach a nanosecond-scale timing accura…

Physics - Instrumentation and DetectorsAutomatic dependent surveillance-broadcastComputer scienceCiencias FísicasAstronomyDetector alignment and calibration methods (lasers sources particle-beams)Calibration and fitting methods; Cluster finding; Detector alignment and calibration methods (lasers sources particle-beams); Pattern recognition; Timing detectors01 natural sciencesTiming detectorsSynchronizationHigh Energy Physics - Experiment//purl.org/becyt/ford/1 [https]High Energy Physics - Experiment (hep-ex)Sine wave[PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex]InstrumentationMathematical PhysicsTransmitterDetectorSettore FIS/01 - Fisica Sperimentaleparticle-beams)Instrumentation and Detectors (physics.ins-det)Pattern recognition cluster finding calibration and fitting methodGlobal Positioning SystemComputingMethodologies_DOCUMENTANDTEXTPROCESSINGFísica nuclearCIENCIAS NATURALES Y EXACTASsourcesReal-time computingFOS: Physical sciencesCalibration and fitting methodClustersPattern recognition0103 physical sciencesCalibrationHigh Energy Physics010306 general physicsCiencias ExactasCalibration and fitting methods010308 nuclear & particles physicsbusiness.industryCluster findingFísicaAstroparticles//purl.org/becyt/ford/1.3 [https]PhaserAstronomíaDetector alignment and calibration methods (lasersTiming detectorPierre AugerExperimental High Energy PhysicsRECONHECIMENTO DE PADRÕESCalibration and fitting methods; Cluster finding; Detector alignment and calibration methods (lasers sources particle-beams); Pattern recognition; Timing detectors; Instrumentation; Mathematical PhysicsbusinessJournal of Instrumentation
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Electron drift and longitudinal diffusion in high pressure xenon-helium gas mixtures

2019

We report new measurements of the drift velocity and longitudinal diffusion coefficients of electrons in pure xenon gas and in xenon-helium gas mixtures at 1-9 bar and electric field strengths of 50-300 V/cm. In pure xenon we find excellent agreement with world data at all $E/P$, for both drift velocity and diffusion coefficients. However, a larger value of the longitudinal diffusion coefficient than theoretical predictions is found at low $E/P$ in pure xenon, below the range of reduced fields usually probed by TPC experiments. A similar effect is observed in xenon-helium gas mixtures at somewhat larger $E/P$. Drift velocities in xenon-helium mixtures are found to be theoretically well pred…

Physics - Instrumentation and DetectorsMaterials scienceDrift velocityPhysics::Instrumentation and DetectorsExtrapolationFOS: Physical scienceschemistry.chemical_elementElectron01 natural sciences030218 nuclear medicine & medical imaging03 medical and health sciences0302 clinical medicineXenonElectric field0103 physical sciencesPhysics::Atomic and Molecular ClustersNuclear Experiment (nucl-ex)Diffusion (business)Nuclear ExperimentInstrumentationMathematical PhysicsHelium010308 nuclear & particles physicsInstrumentation and Detectors (physics.ins-det)chemistryAtomic physicsBar (unit)
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Electrical excitation of surface plasmons

2011

We exploit a plasmon mediated two-step momentum down-conversion scheme to convert low-energy tunneling electrons into propagating photons. Surface plasmon polaritons (SPPs) propagating along an extended gold nanowire are excited on one end by low-energy electron tunneling and are then converted to free-propagating photons at the other end. The separation of excitation and outcoupling proves that tunneling electrons excite gap plasmons that subsequently couple to propagating plasmons. Our work shows that electron tunneling provides a nonoptical, voltage-controlled, and low-energy pathway for launching SPPs in nanostructures, such as plasmonic waveguides.

Physics - Instrumentation and DetectorsNanowireFOS: Physical sciencesGeneral Physics and AstronomyPhysics::Optics02 engineering and technologyElectron01 natural scienceslaw.invention010309 opticslawMesoscale and Nanoscale Physics (cond-mat.mes-hall)0103 physical sciencesPhysics::Atomic and Molecular Clusters010306 general physicsQuantum tunnellingPlasmonPhysicsCondensed Matter - Mesoscale and Nanoscale PhysicsSurface plasmonInstrumentation and Detectors (physics.ins-det)021001 nanoscience & nanotechnologyCondensed Matter::Mesoscopic Systems and Quantum Hall EffectSurface plasmon polaritonQuasiparticleScanning tunneling microscopeAtomic physics0210 nano-technologyExcitationOptics (physics.optics)Localized surface plasmonPhysics - Optics
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GW190412: Observation of a binary-black-hole coalescence with asymmetric masses

2020

LIGO Scientific Collaboration and Virgo Collaboration: et al.

Physics and Astronomy (miscellaneous)AstronomyGravitational wave detection Gravitational wave sources Gravitational waves Astronomical black holesagn discsAstrophysicsdetector: network01 natural sciencesGeneral Relativity and Quantum CosmologyPhysics Particles & Fieldsstar-clustersgravitational waves black holesgravitational waves; black holesAGN DISCSgravitational waves; black holes; LIGO; Virgoblack holegeneral relativityLIGOgravitational waveQCQBPhysicsSettore FIS/01astro-ph.HEHigh Energy Astrophysical Phenomena (astro-ph.HE)GRAVITATIONAL WAVE-FORMSPROGENITORSCOMPACT BINARIESblack hole: spinPhysicsPERTURBATIONSgravitational wavesPhysical Sciences[PHYS.GRQC]Physics [physics]/General Relativity and Quantum Cosmology [gr-qc]Gravitational wave detectionAstrophysics - High Energy Astrophysical PhenomenaMETALLICITYmass: asymmetrymetallicitydata analysis methodGeneral relativityMERGERSgr-qcAstrophysics::High Energy Astrophysical PhenomenamultipolePREDICTIONSFOS: Physical sciencesgravitational wavesblack holesGeneral Relativity and Quantum Cosmology (gr-qc)Astronomy & Astrophysicsgravitational radiation: direct detectionGravitational wavesGeneral Relativity and Quantum CosmologyTheory of relativityBinary black holeSettore FIS/05 - Astronomia e AstrofisicaAstronomical black holesbinary: coalescence0103 physical sciencesnumerical methodsddc:530STAR-CLUSTERS010306 general physicsnumerical calculationsSTFCAstrophysiqueGravitational wave sourcesScience & Technologymass: solar010308 nuclear & particles physicsGravitational waveVirgogravitational radiationRCUKblack hole: massMass ratioblack holesLIGOEVOLUTIONgravitational radiation detectorBlack holedetector: sensitivityPhysics and Astronomyblack hole: binaryrelativity theorygravitational radiation: emissionmass ratioMultipole expansion[PHYS.ASTR]Physics [physics]/Astrophysics [astro-ph]Astrophysics and astroparticle physics
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Size-dependent photoemission shifts in small metal clusters

1986

Density-functional calculations of the change in self-consistent-field energy ( Delta SCF) type are reported for core-level photoemission shifts in small metal spheres. The results for the atom-in-jellium vacancy model show that the binding energies are increased from bulk-metal values, but the photoemission shifts show considerable oscillations as a function of cluster size.

Physics and Astronomy (miscellaneous)ChemistryBinding energyInverse photoemission spectroscopySize dependentMetals and AlloysGeneral EngineeringAngle-resolved photoemission spectroscopyMetalCondensed Matter::Materials ScienceVacancy defectvisual_artPhysics::Atomic and Molecular Clustersvisual_art.visual_art_mediumCondensed Matter::Strongly Correlated ElectronsSPHERESAtomic physicsMetal clustersJournal of Physics F: Metal Physics
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Rovibrational controlled-NOT gates using optimized stimulated Raman adiabatic passage techniques and optimal control theory

2009

Implementation of quantum controlled-NOT (CNOT) gates in realistic molecular systems is studied using stimulated Raman adiabatic passage (STIRAP) techniques optimized in the time domain by genetic algorithms or coupled with optimal control theory. In the first case, with an adiabatic solution (a series of STIRAP processes) as starting point, we optimize in the time domain different parameters of the pulses to obtain a high fidelity in two realistic cases under consideration. A two-qubit CNOT gate constructed from different assignments in rovibrational states is considered in diatomic (NaCs) or polyatomic $({\text{SCCl}}_{2})$ molecules. The difficulty of encoding logical states in pure rota…

Physics010304 chemical physicsField (physics)Stimulated Raman adiabatic passageRotational–vibrational spectroscopyOptimal control01 natural sciencesAtomic and Molecular Physics and OpticsControlled NOT gateQuantum mechanics0103 physical sciencesPhysics::Atomic and Molecular ClustersTime domain010306 general physicsAdiabatic processQuantum computerPhysical Review A
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