Search results for " Cyclotron"

showing 8 items of 168 documents

Experimental evidence on microwave induced electron losses from ECRIS plasma

2018

The balance between warm and hot (>1 keV) electron density and their losses from the magnetic confinement system of an Electron Cyclotron Resonance Ion Source (ECRIS) plasma is considered to be one of the main factors determining the rate of the high charge state ion production. One of the key loss channels for heated electrons is thought to be induced by the injected microwaves. While this loss mechanism, referred to as rf-induced pitch angle scattering, has been studied theoretically and with computational tools, direct experimental evidence of its significance in minimum-B ECRIS plasmas remains limited. In this work, experimental evidence of microwave induced electron losses in the axial…

magnetic mirrorsElectron densityelectrorheological fluidsAtmospheric-pressure plasma7. Clean energy01 natural scienceselectromagnetic radiationElectron cyclotron resonance010305 fluids & plasmassähkömagneettinen säteilyMagnetic mirrormikroaallotion sources0103 physical sciencesplasma (kaasut)010302 applied physicsPhysicsplasma confinementta114Magnetic confinement fusionPlasmaCondensed Matter Physicselectronic structureIon sourcePlasma diagnosticsAtomic physicsPhysics of Plasmas
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Dynamic regimes of cyclotron instability in the afterglow mode of minimum-B electron cyclotron resonance ion source plasma

2016

The paper is concerned with the dynamic regimes of cyclotron instabilities in non-equilibrium plasma of a minimum-B electron cyclotron resonance ion source operated in pulsed mode. The instability appears in decaying ion source plasma shortly (1–10 ms) after switching off the microwave radiation of the klystron, and manifests itself in the form of powerful pulses of electromagnetic emission associated with precipitation of high-energy electrons along the magnetic field lines. Recently it was shown that this plasma instability causes perturbations of the extracted ion current, which limits the performance of the ion source and generates strong bursts of bremsstrahlung emission. In this artic…

plasma diagnosticsPhysics::Plasma PhysicsAstrophysics::High Energy Astrophysical Phenomenacyclotron instabilityafterglow dischargemicrowave emissionZ-mode emissionelectron cyclotron resonance ion source
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Recent progress on the superconducting ion source VENUS.

2012

The 28 GHz Ion Source VENUS (versatile ECR for nuclear science) is back in operation after the superconducting sextupole leads were repaired and a fourth cryocooler was added. VENUS serves as an R&D device to explore the limits of electron cyclotron resonance source performance at 28 GHz with its 10 kW gryotron and optimum magnetic fields and as an ion source to increase the capabilities of the 88-Inch Cyclotron both for nuclear physics research and applications. The development and testing of ovens and sputtering techniques cover a wide range of applications. Recent experiments on bismuth demonstrated stable operation at 300 eμA of Bi31+, which is in the intensity range of interest for hig…

plasma fysiikkaMaterials scienceta114biologybusiness.industryionilähteetCyclotronParticle acceleratorVenusCryocoolerplasmafysiikkabiology.organism_classificationElectron cyclotron resonanceFourier transform ion cyclotron resonanceIon sourcelaw.inventionOpticslawIon sourcesAtomic physicsbusinessInstrumentationIon cyclotron resonanceThe Review of scientific instruments
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VUV emission spectroscopy combined with H- density measurements in the ion source Prometheus I

2016

“Prometheus I” is a volume H− negative ion source, driven by a network of dipolar electron cyclotron resonance (ECR; 2.45 GHz) modules. The vacuum-ultraviolet (VUV) emission spectrum of low-temperature hydrogen plasmas may be related to molecular and atomic processes involved directly or indirectly in the production of negative ions. In this work, VUV spectroscopy has been performed in the above source, Prometheus I, both in the ECR zones and the bulk (far from ECR zones and surfaces) plasma. The acquired VUV spectra are correlated with the negative ion densities, as measured by means of laser photodetachment, and the possible mechanisms of negative ion production are considered. The well-e…

plasmatekniikka01 natural sciences7. Clean energySpectral lineElectron cyclotron resonance010305 fluids & plasmasIonPhysics::Plasma Physics[PHYS.PHYS.PHYS-PLASM-PH]Physics [physics]/Physics [physics]/Plasma Physics [physics.plasm-ph]0103 physical sciencesPhysics::Atomic and Molecular ClustersultraviolettisäteilyEmission spectrumvacuum-ultraviolet emissionSpectroscopy010302 applied physicsplasma sourcesta114ChemistrysyklotronitPlasmaIon sourceECR ion sourcesExcited stateAtomic physicsemissio (fysiikka)
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Radiofrequency and 2.45 GHz electron cyclotron resonance H− volume production ion sources

2016

The volume production of negative hydrogen ions (H-) in plasma ion sources is based on dissociative electron attachment (DEA)to rovibrationally excited hydrogen molecules(H2), which is a two-step process requiring both, hot electrons for ionization, and vibrational excitation of the H2 and cold electrons for the H- formation through DEA. Traditionally H- ion sources relying on the volume production have been tandem-type arc discharge sources equipped with biased filament cathodes sustaining the plasma by thermionic electron emission and with a magnetic filter separating the main discharge from the H- formation volume. The main motivation to develop ion sources based on radiofrequency (RF) o…

radiofrequency plasma dischargedissociative electron attachmentnegative ion sourceelectron cyclotron resonance
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Copper-hydride nanoclusters with enhanced stability by N-heterocyclic carbenes

2021

AbstractCopper-hydrides have been intensively studied for a long time due to their utilization in a variety of technologically important chemical transformations. Nevertheless, poor stability of the species severely hinders its isolation, storage and operation, which is worse for nano-sized ones. We report here an unprecedented strategy to access to ultrastable copper-hydride nanoclusters (NCs), namely, using bidentate N-heterocyclic carbenes as stabilizing ligands in addition to thiolates. In this work, a simple synthetic protocol was developed to synthesize the first large copper-hydride nanoclusters (NCs) stabilized by N-heterocyclic carbenes (NHCs). The NC, with the formula of Cu31(RS)2…

superatomMaterials scienceSuperatomkuparistabilityCondensed Matter PhysicsAtomic and Molecular Physics and OpticsFourier transform ion cyclotron resonancecopper-hydrideNanoclustersN-heterocylic carbeneCrystallographychemistry.chemical_compoundklusteritUltraviolet visible spectroscopymetal clusterschemistryCluster (physics)Copper hydrideGeneral Materials ScienceThermal stabilityDensity functional theorynanohiukkasetElectrical and Electronic Engineering
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High-precision measurement of the mass difference between 102Pd and 102Ru

2019

Abstract The Q-value for the neutrinoless double electron capture on 102Pd, Qϵϵ(102Pd), is determined as the atomic mass difference between 102Pd and 102Ru. A precise measurement of the Qϵϵ(102Pd) at the SHIPTRAP Penning trap showed a more than 10σ deviation to the adopted Atomic Mass Evaluation (AME) value. The reliability of the SHIPTRAP measurement was challenged because the AME value was based on numerous experiments including β and electron capture decays and very precise (n, γ) data, all agreeing with each other. To solve the discrepancy, the Qϵϵ(102Pd) has now been determined with the JYFLTRAP Penning trap at the IGISOL facility in the Accelerator Laboratory of the University of Jyva…

ta114010308 nuclear & particles physicsChemistryElectron captureneutrinoless double-electron capturepenning trapQ-valuesCondensed Matter PhysicsPenning trap01 natural sciencesAtomic massNuclear physics0103 physical sciencesPhysical and Theoretical Chemistryydinfysiikka010306 general physicshigh-precision mass spectrometryInstrumentationSpectroscopyReliability (statistics)Ion cyclotron resonanceInternational Journal of Mass Spectrometry
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High yield neutron generator based on a high-current gasdynamic electron cyclotron resonance ion source

2015

In present paper, an approach for high yield compact D-D neutron generator based on a high current gasdynamic electron cyclotron resonance ion source is suggested. Results on dense pulsed deuteron beam production with current up to 500 mA and current density up to 750 mA/cm2 are demonstrated. Neutron yield from D2O and TiD2 targets was measured in case of its bombardment by pulsed 300 mA Dþ beam with 45 keV energy. Neutron yield density at target surface of 109 s 1 cm2 was detected with a system of two 3 He proportional counters. Estimations based on obtained experimental results show that neutron yield from a high quality TiD2 target bombarded by Dþ beam demonstrated in present work accele…

ta114ChemistryAstrophysics::High Energy Astrophysical PhenomenaNuclear TheoryGeneral Physics and AstronomyNeutron scatteringelectron cyclotron resonance ion sourceNeutron temperatureNuclear physicsNeutron captureneutron generatorsneutron yieldNeutron generatorNeutron cross sectionNeutron detectionNeutron sourceNeutronNuclear ExperimentJournal of Applied Physics
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