Search results for "beam [ion]"

showing 10 items of 63 documents

A pulsed high-voltage decelerator system to deliver low-energy antiprotons

2021

International audience; The GBAR (Gravitational Behavior of Antihydrogen at Rest) experiment at CERN requires efficient deceleration of 100 keV antiprotons provided by the new ELENA synchrotron ring to synthesize antihydrogen. This is accomplished using electrostatic deceleration optics and a drift tube that is designed to switch from -99 kV to ground when the antiproton bunch is inside – essentially a charged particle “elevator” – producing a 1 keV pulse. We describe the simulation, design, construction and successful testing of the decelerator device at -92 kV on-line with antiprotons from ELENA.

Nuclear and High Energy PhysicsDrift tubeGeneral RelativityIon-optic simulationsCERN Labdrift tubeAstrophysics::High Energy Astrophysical Phenomena[PHYS.PHYS.PHYS-ACC-PH]Physics [physics]/Physics [physics]/Accelerator Physics [physics.acc-ph]Charged-particle opticsfabrication7. Clean energy01 natural sciencesanti-p: decelerationlaw.inventionNuclear physicslaw0103 physical sciencessynchrotronPhysics::Atomic Physics010306 general physicsAntihydrogennumerical calculationsInstrumentationaccelerator: designPhysicsantihydrogenLarge Hadron Collider010308 nuclear & particles physicsHigh voltageCharged particleSynchrotron[PHYS.PHYS.PHYS-GEN-PH]Physics [physics]/Physics [physics]/General Physics [physics.gen-ph]Pulse (physics)beam opticsAntiprotonPhysics::Accelerator Physics
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Fourier transform-ion cyclotron resonance mass spectrometry — A new tool for measuring highly charged ions in an electron beam ion trap

1995

Abstract Fourier transform-ion cyclotron mass spectrometry has been applied to the study of highly charged ions produced and confined in an electron beam ion trap. Measurements of the relative ion abundance of hydrogenlike and bare krypton ions were made and compared to the abundance ratios determined with standard X-ray techniques. Good agreement was found establishing the reliability of the method as a new tool in highly charged ion research.

Nuclear and High Energy PhysicsPhysics::Plasma PhysicsChemistryHighly charged ionIon trapAtomic physicsIon gunMass spectrometryInstrumentationFourier transform ion cyclotron resonanceIon sourceIon cyclotron resonanceElectron beam ion trapNuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms
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Beam optics and magnet technology of the microtron in mainz

1981

Abstract A description is given of the beam transport system for injection into the first microtron of MAMI. Further, a special procedure to improve the field distribution of the dipole magnets is described in some detail and results are given.

Nuclear physicsPhysicsDipoleField (physics)MagnetGeneral EngineeringPhysics::Accelerator PhysicsBeam opticsNuclear ExperimentMicrotronBeam (structure)Transport systemNuclear Instruments and Methods in Physics Research
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High-resolution scattering experiments at the K130 cyclotron in Jyväskylä

2018

Abstract An experimental setup for nuclear reaction studies induced by light and heavy ions is described. It consists of a versatile Large Scattering Chamber equipped with two rotating tables for mounting detectors. A dedicated beam diagnostic system is used to monitor the energy spectrum of the beam on target. The system provides the necessary feedback for tuning of the K-130 cyclotron to reduce the energy spread of the accelerated beam by at least a factor of 3 down to about 0.3% of the nominal energy while maintaining beam currents around 20 pnA. At lower beam currents a 0.1% energy spread can be achieved. This improvement makes a significant impact on the scope of reaction studies possi…

Nuclear reactionNuclear and High Energy PhysicsCyclotronHigh resolution01 natural sciencesIonlaw.inventionscattering experimentsOpticslaw0103 physical sciencessirontacyclotron010306 general physicsInstrumentationPhysicsta114010308 nuclear & particles physicsScatteringbusiness.industrysyklotronitDetectorscattering chamberbeam opticsydinfysiikkabusinessEnergy (signal processing)Beam (structure)Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
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Innovative remotely-controlled bending device for thin silicon and germanium crystals

2020

Steering of negatively charged particle beams below 1 GeV has demonstrated to be possible with thin bent silicon and germanium crystals. A newly designed mechanical holder was used for bending crystals, since it allows a remotely-controlled adjustment of crystal bending and compensation of unwanted torsion. Bent crystals were installed and tested at the MAMI Mainz MIcrotron to achieve steering of 0.855-GeV electrons at different bending radii. We report the description and characterization of the innovative bending device developed at INFN Laboratori Nazionali di Legnaro (LNL).

Physics - Instrumentation and DetectorsMaterials scienceAccelerator ApplicationsSiliconBeam OpticsNegatively charged particleAccelerator Applications; Beam Optics; Instrumentation for particle accelerators and storage rings - high energy (linear accelerators synchrotrons); Instrumentation for particle accelerators and storage rings - lowenergy (linear accelerators cyclotrons electrostatic accelerators); Instrumentation; Mathematical PhysicsBent molecular geometryFOS: Physical scienceschemistry.chemical_elementGermaniumElectron01 natural sciencesInstrumentation for particle accelerators and storage rings - lowenergy (linear accelerators cyclotrons electrostatic accelerators)Instrumentation for particle accelerators and storage rings - high energy (linear accelerators synchrotrons)NOCrystal0103 physical sciencesNuclear Experiment010306 general physicsInstrumentationMicrotronMathematical Physics010308 nuclear & particles physicsbusiness.industryTorsion (mechanics)Instrumentation and Detectors (physics.ins-det)chemistryPhysics::Accelerator PhysicsOptoelectronicsbusinessJournal of Instrumentation
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Design of the Magnet System of the Neutron Decay Facility PERC

2018

The PERC (Proton and Electron Radiation Channel) facility is currently under construction at the research reactor FRM II, Garching. It will serve as an intense and clean source of electrons and protons from neutron beta decay for precision studies. It aims to contribute to the determination of the Cabibbo-Kobayashi-Maskawa quark-mixing element $V_{ud}$ from neutron decay data and to search for new physics via new effective couplings. PERC's central component is a 12m long superconducting magnet system. It hosts an 8m long decay region in a uniform field. An additional high-field region selects the phase space of electrons and protons which can reach the detectors and largely improves system…

Physics - Instrumentation and Detectorsmagnet: designProtonQC1-999FOS: Physical sciencesSuperconducting magnetElectron[PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex]01 natural sciences7. Clean energyelectron: particle sourcep: particle sourceNuclear physics0103 physical sciencesResearch reactorNeutron[PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det]Nuclear Experiment (nucl-ex)010306 general physicsNuclear ExperimentPhysicsn: semileptonic decay010308 nuclear & particles physicsPhysicsInstrumentation and Detectors (physics.ins-det)magnet: superconductivityMagnetic fieldbeam opticsMagnetPhase spaceHigh Energy Physics::Experiment
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Microcalorimeter/EBIT measurements of X-ray spectra of highly charged ions

2001

Spectra of highly charged Ar, Kr, Xe and Fe ions, produced in an Electron Beam Ion Trap (EBIT), have been recorded in a broad X-ray energy band (0.2 keV to 10 keV) with a microcalorimeter detector. The first analysis of the Kr spectra has been completed and most of the spectral lines have been identified as transitions of B- to Al-like Kr. Line intensity ratios of Fe XVII have been measured and compared with theoretical models.

PhysicsAtomic and Molecular Physics and OpticPhysics::Instrumentation and DetectorsDetectorTheoretical modelsCondensed Matter PhysicsAtomic and Molecular Physics and OpticsSpectral lineIonSettore FIS/05 - Astronomia E AstrofisicaMathematical PhysicAtomic physicsElectronic band structureX ray spectraMathematical PhysicsLine (formation)Electron beam ion trap
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A microcalorimeter spectrometer for the investigation of laboratory plasmas

2002

We describe a cryostat and 2-stage ADR specifically designed for making measurements at the NIST EBIT (Electron Beam Ion Trap) facility. The design is compact and consists of a single helium bath with two vapor-cooled shields. The 2-stage ADR has two separate magnets and two heat switches. The interface between the EBIT and microcalorimeter array will also be described.

PhysicsCryostatSpectrometerbusiness.industryLiquid heliumchemistry.chemical_elementShieldslaw.inventionNuclear physicsOpticschemistrylawADR cryostat EBIT x-ray microcalorimeters AstrophysicsNISTPlasma diagnosticsbusinessHeliumElectron beam ion trapAIP Conference Proceedings
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Analysis of broadband x-ray spectra of highly charged krypton from a microcalorimeter detector of an electron-beam ion trap

2001

Spectra of highly charged Kr ions, produced in an electron-beam ion trap (EBIT), have been recorded in a broad x-ray energy band (0.3 keV to 4 keV) with a microcalorimeter detector. Most of the spectral lines have been identified as transitions of B- to Al-like Kr. The transition energies have been determined with 0.2% uncertainty. A semi-empirical EBIT plasma model has been created to calculate a synthetic spectrum of highly charged Kr and to determine a charge state distribution of Kr ions inside the EBIT.

PhysicsDetectorKryptonchemistry.chemical_elementFizikai tudományokPlasmaCondensed Matter PhysicSpectral lineIonPhysics and Astronomy (all)Settore FIS/05 - Astronomia E AstrofisicaTermészettudományokchemistryPhysics::Atomic PhysicsIon trapAtomic physicsElectronic band structureMathematical PhysicsElectron beam ion trapStatistical and Nonlinear Physic
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Collimation of Target Induced Halo Following MAGIX at MESA

2019

The Mainz Energy-recovering Superconducting Accelerator (MESA) will be an electron accelerator allowing operation in energy-recovery linac (ERL) mode. It provides the opportunity to operate scattering experiments at energies of ~100 MeV with thin gas-targets. The MESA Internal Gas Target Experiment (MAGIX) aims to operate windowless jet targets and different gases up to Xenon to search for possible dark photon interactions, to precisely measure the magnetic proton radius and astrophysical S-factors. Investigations on the impact of the target on beam dynamics and beam losses are required for machine safety and to examine limits to ERL operation. The goal of this work is to understand target …

PhysicsHistorybusiness.industryParticle accelerator530Dark photonLinear particle acceleratorCollimated lightComputer Science ApplicationsEducationlaw.inventionAccelerator PhysicsMC6: Beam Instrumentation Controls Feedback and Operational AspectsOpticslawCryomoduleElectromagnetic shieldingPhysics::Accelerator Physicsddc:530HalobusinessBeam (structure)
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