Search results for "Faraday cup"

showing 6 items of 6 documents

Studies of electron heating on a 6.4 GHz ECR ion source through measurement of diamagnetic current and plasma bremsstrahlung

2011

Diamagnetic current and low energy (2–70 keV) x-ray bremsstrahlung measurements taken on a 6.4 GHz electron cyclotron resonance ion source (ECRIS) are presented as a function of microwave power, neutral gas pressure and magnetic field configuration. X-ray flux from confined electrons and plasma energy density depend logarithmically on microwave power. This result differs from previous studies performed on ECRISs that operate at higher microwave frequencies, in which the x-ray power increases in an essentially linear fashion with the microwave power. X-ray power and plasma energy density both saturate as the neutral pressure is increased beyond a certain value. The gradient of the magnetic f…

ChemistryAstrophysics::High Energy Astrophysical PhenomenaBremsstrahlungFaraday cupIon currentElectronPlasmaCondensed Matter PhysicsElectron cyclotron resonanceIon sourcesymbols.namesakesymbolsAtomic physicsMicrowavePlasma Sources Science and Technology
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Charge measurement using an array of Faraday’s Cups on a printed circuit board

2014

Abstract An absolute method of measuring charge is to use a Faraday Cup (FC) principle. This study relates to a novel method of measuring charge on a flat substrate, which is coated with charged powder particles. The substrate consists of an array of FC with different dimensions. The sensor is manufactured using flame-retardant printed circuit board (PCB) technology. The objective of this work is to reduce the charge sharing by developing a grounded shield cup around each conductive cup in the array and accordingly increase cup-to-ground capacitance. The results have confirmed that the improved well shielding would provide a more accurate quantitative charge measurement.

Engineeringbusiness.industryApplied MathematicsElectrical engineeringFaraday cupSubstrate (printing)Condensed Matter PhysicsCapacitancelaw.inventionCharge sharingPrinted circuit boardsymbols.namesakelawElectromagnetic shieldingsymbolsOptoelectronicsElectrical and Electronic EngineeringbusinessFaraday cageInstrumentationElectrical conductorMeasurement
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Development of procedures for programmable proximity aperture lithography

2013

Abstract Programmable proximity aperture lithography (PPAL) with MeV ions has been used in Jyvaskyla and Chiang Mai universities for a number of years. Here we describe a number of innovations and procedures that have been incorporated into the LabView-based software. The basic operation involves the coordination of the beam blanker and five motor-actuated translators with high accuracy, close to the minimum step size with proper anti-collision algorithms. By using special approaches, such writing calibration patterns, linearisation of position and careful backlash correction the absolute accuracy of the aperture size and position, can be improved beyond the standard afforded by the repeata…

Nuclear and High Energy Physicsta114business.industryApertureComputer sciencemicrofluidicsScalable Vector GraphicsFaraday cupcomputer.file_formatMeV ion beam lithographyprogrammable proximity aperture lithography (PPAL)symbols.namesakeSoftwareOpticsion-fluencePosition (vector)CalibrationElectronic engineeringsymbolsbusinessInstrumentationLithographycomputerBeam (structure)Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms
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A combination intermediate-image magnetic plus Si(Li) electron spectrometer for in-beam experiments

1979

Abstract A magnetic lens plus Si(Li) combination in-beam beta spectrometer with focusing properties and field shape similar to those of an intermediate-image spectrometer is described. A high transmission and a large momentum band-width are achieved by placing both the target and the detector in a high magnetic field inside the lens. The beam enters the lens axially, and the Faraday cup is placed inside the lens. The spectrometer is well suited to singles conversion-electron spectroscopy, to electron-heavy particle coincidence measurements, to lifetime measurements and to studies of internal-pair transitions.

PhysicsElectron spectrometerSpectrometerbusiness.industryFaraday cupGeneral Medicinelaw.inventionMagnetic fieldLens (optics)symbols.namesakeOpticslawsymbolsMagnetic lensbusinessBeam (structure)Electrostatic lensNuclear Instruments and Methods
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Transverse distribution of beam current oscillations of a 14 GHz electron cyclotron resonance ion source

2014

The temporal stability of oxygen ion beams has been studied with the 14 GHz A-ECR at JYFL (University of Jyvaskyla, Department of Physics). A sector Faraday cup was employed to measure the distribution of the beam current oscillations across the beam profile. The spatial and temporal characteristics of two different oscillation “modes” often observed with the JYFL 14 GHz ECRIS are discussed. It was observed that the low frequency oscillations below 200 Hz are distributed almost uniformly. In the high frequency oscillation “mode,” with frequencies >300 Hz at the core of the beam, carrying most of the current, oscillates with smaller amplitude than the peripheral parts of the beam. The result…

Physicsta114Oscillationbeam current oscillationsCyclotronElectric Conductivitytransverse distributionFaraday cupElectronsCyclotronsLower hybrid oscillationPlasma oscillationElectron cyclotron resonancelaw.inventionsymbols.namesakelawUpper hybrid oscillationsymbolsAtomic physicsInstrumentationBeam (structure)Review of Scientific Instruments
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Ion beam intensity and phase space measurement techniques for ion sources.

2022

Ion sources produce beams used in accelerators and other applications. Both development and use of ion sources need beam diagnostics to probe the plasma processes and beam formation for optimization purposes and to produce beam parameters needed for transport tuning. These diagnostics include beam intensity measurements usually carried out with Faraday cups or inductive pickups, magnetic separation, profile measurements with scintillation screens and wires, and phase space measurements with different types of emittance scanners. peerReviewed

particle distributionsFaraday cupsion sourceswien filterplasma diagnosticsionitPhysics::Accelerator Physicsmeasuring instrumentsplasmafysiikkaInstrumentationphase space distributionThe Review of scientific instruments
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