Search results for " beam"

showing 10 items of 1274 documents

Controlled turbulence regime of electron cyclotron resonance ion source for improved multicharged ion performance

2020

Fundamental studies of excitation and non-linear evolution of kinetic instabilities of strongly nonequlibrium hot plasmas confined in open magnetic traps suggest new opportunities for fine-tuning of conventional electron cyclotron resonance (ECR) ion sources. These devices are widely used for the production of particle beams of high charge state ions. Operating the ion source in controlled turbulence regime allows increasing the absorbed power density and therefore the volumetric plasma energy content in the dense part of the discharge surrounded by the ECR surface, which leads to enhanced beam currents of high charge state ions. We report experiments at the ECR ion source at the JYFL accel…

010302 applied physicsAccelerator Physics (physics.acc-ph)Materials scienceAcoustics and UltrasonicsIon beamFOS: Physical sciencesPlasmaCondensed Matter PhysicsKinetic energy7. Clean energy01 natural sciencesElectron cyclotron resonanceIon sourcePhysics - Plasma Physics010305 fluids & plasmasSurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsIonPlasma Physics (physics.plasm-ph)Physics::Plasma Physics0103 physical sciencesPhysics - Accelerator PhysicsAtomic physicsExcitationBeam (structure)
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A study of the optical effect of plasma sheath in a negative ion source using IBSIMU code

2020

A plasma sheath inside an ion source has a strong focusing effect on the formation of an ion beam from the plasma. Properties of the beam depend on the shape and location of the plasma sheath inside the source. The most accessible experimental data dependent on the plasma sheath are the beam phase space distribution. Variation of beam emittance is a reflection of the properties of the plasma sheath, with minimum emittance for the optimal shape of the plasma sheath. The location and shape of the plasma sheath are governed by complex physics and can be understood by simulations using plasma models in particle tracking codes like IBSimu. In the current study, a model of the D-Pace’s TRIUMF lic…

010302 applied physicsDebye sheathMaterials scienceIon beamPlasmahiukkaskiihdyttimetplasmafysiikka01 natural sciencesIon sourcenegative ion source010305 fluids & plasmassymbols.namesakeplasma sheathPhysics::Plasma Physics0103 physical sciencesPhysics::Space PhysicssymbolsPhysics::Accelerator PhysicsThermal emittanceStrong focusingBeam emittanceAtomic physicsInstrumentationBeam (structure)
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High quality epitaxial Mn 2 Au (001) thin films grown by molecular beam epitaxy

2020

The recently discovered phenomenon of Neel spin–orbit torque in antiferromagnetic Mn2Au [Bodnar et al., Nat. Commun. 9, 348 (2018); Meinert et al., Phys. Rev. Appl. 9, 064040 (2018); Bodnar et al., Phys. Rev. B 99, 140409(R) (2019)] has generated huge interest in this material for spintronics applications. In this paper, we report the preparation and characterization of high quality Mn2Au thin films by molecular beam epitaxy and compare them with magnetron sputtered samples. The films were characterized for their structural and morphological properties using reflective high-energy electron diffraction, x-ray diffraction, x-ray reflectometry, atomic force microscopy, and temperature dependen…

010302 applied physicsDiffractionMaterials scienceCondensed matter physicsSpintronicsScatteringGeneral Physics and Astronomy02 engineering and technology021001 nanoscience & nanotechnologyEpitaxyRutherford backscattering spectrometry01 natural sciencesCondensed Matter::Materials ScienceElectron diffraction0103 physical sciencesThin film0210 nano-technologyMolecular beam epitaxyJournal of Applied Physics
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Radial composition of single InGaN nanowires: a combined study by EDX, Raman spectroscopy, and X-ray diffraction

2013

010302 applied physicsDiffractionMaterials scienceNanostructureScatteringNanowireAnalytical chemistry02 engineering and technology021001 nanoscience & nanotechnologyCondensed Matter PhysicsEpitaxy01 natural sciencessymbols.namesakeCrystallography0103 physical sciencesX-ray crystallographysymbolsGeneral Materials Science0210 nano-technologyRaman spectroscopyMolecular beam epitaxyphysica status solidi (RRL) - Rapid Research Letters
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Optical properties of InN nanocolumns: Electron accumulation at InN non‐polar surfaces and dependence on the growth conditions

2009

InN nanocolumns grown by plasma-assisted molecular beam epitaxy have been studied by photoluminescence (PL) and photoluminescence excitation (PLE). The PL peak energy was red-shifted with respect to the PLE onset and both energies were higher than the low temperature band-gap reported for InN. PL and PLE experiments for different excitation and detection energies indicated that the PL peaks were homogeneously broadened. This overall phenomenology has been attributed to the effects of an electron accumulation layer present atthe non-polar surfaces of the InN nanocolumns. Variations in the growth conditions modify the edge of the PLE spectra and the PL peak energies evidencing that the densit…

010302 applied physicsFree electron modelElectron densityPhotoluminescenceCondensed matter physicsAbsorption spectroscopyChemistry02 engineering and technologyElectron021001 nanoscience & nanotechnologyCondensed Matter PhysicsEpitaxy01 natural sciencesMolecular physics0103 physical sciencesPhotoluminescence excitation0210 nano-technologyMolecular beam epitaxyphysica status solidi c
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Injected 1+ ion beam as a diagnostics tool of charge breeder ECR ion source plasmas

2015

International audience; Charge breeder electron cyclotron resonance ion sources (CB-ECRIS) are used as 1+  →n+  charge multiplication devices of post-accelerated radioactive ion beams. The charge breeding process involves thermalization of the injected 1+  ions with the plasma ions in ion–ion collisions, subsequent ionization by electron impact and extraction of the n+  ions. Charge breeding experiments of 85Rb and 133Cs ion beams with the 14.5 GHz PHOENIX CB-ECRIS operating with oxygen gas demonstrate the plasma diagnostics capabilities of the 1+  injection method. Two populations can be distinguished in the m/q-spectrum of the extracted ion beams, the low (1+  and 2+) charge states repres…

010302 applied physicsIon beamAmbipolar diffusionChemistry[PHYS.PHYS.PHYS-ACC-PH]Physics [physics]/Physics [physics]/Accelerator Physics [physics.acc-ph]ElectronPlasmaCondensed Matter Physics01 natural sciences7. Clean energyIon source010305 fluids & plasmasIonPhysics::Plasma PhysicsIonization0103 physical sciencesAtomic physicsElectron ionization
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Polarity conversion of GaN nanowires grown by plasma-assisted molecular beam epitaxy

2019

International audience; It is demonstrated that the N-polarity of GaN nanowires (NWs) spontaneously nucleated on Si (111) by molecular beam epitaxy can be reversed by intercalation of an Al-or Ga-oxynitride thin layer. The polarity change has been assessed by a combination of chemical etching, Kelvin probe force microscopy, cathodo-and photoluminescence spectroscopy and transmission electron microscopy experiments. Cathodoluminescence of the Ga-polar NW section exhibits a higher intensity in the band edge region, consistent with a reduced incorporation of chemical impurities. The polarity reversal method we propose opens the path to the integration of optimized metal-polar NW devices on any…

010302 applied physicsKelvin probe force microscopePolarity reversalMaterials sciencePhysics and Astronomy (miscellaneous)Polarity (physics)business.industryNanowireCathodoluminescence02 engineering and technology021001 nanoscience & nanotechnology01 natural sciences7. Clean energyIsotropic etching[SPI.MAT]Engineering Sciences [physics]/MaterialsNanolithography0103 physical sciences[PHYS.COND.CM-MS]Physics [physics]/Condensed Matter [cond-mat]/Materials Science [cond-mat.mtrl-sci][SPI.OPTI]Engineering Sciences [physics]/Optics / PhotonicOptoelectronics[PHYS.COND]Physics [physics]/Condensed Matter [cond-mat]0210 nano-technologybusinessMolecular beam epitaxy
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2020

Recent experiments have demonstrated the formation of free-standing Au monolayers by exposing the Au–Ag alloy to electron beam irradiation. Inspired by this discovery, we used semi-empirical effective medium theory simulations to investigate monolayer formation in 30 different binary metal alloys composed of late d-series metals such as Ni, Cu, Pd, Ag, Pt, and Au. In qualitative agreement with the experiment, we find that the beam energy required to dealloy Ag atoms from the Au–Ag alloy is smaller than the energy required to break the dealloyed Au monolayer. Our simulations suggest that a similar method could also be used to form Au monolayers from the Au–Cu alloy and Pt monolayers from Pt–…

010302 applied physicsMaterials scienceAlloyGeneral Physics and AstronomyBinary number02 engineering and technologyengineering.material021001 nanoscience & nanotechnology01 natural sciencesMolecular physicsMetalElectron beam irradiationvisual_art0103 physical sciencesMonolayerengineeringvisual_art.visual_art_medium0210 nano-technologyBeam energyAIP Advances
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Operating a cesium sputter source in a pulsed mode

2020

A scheme is presented for pulsing of a cesium sputter negative ion source by periodically switching on and off the high voltage driving the sputtering process. We demonstrate how the pulsed ion beam can be used in combination with a pulsed laser (6 ns pulse length) that has a 10 Hz repetition rate to study the photodetachment process, where a negative ion is neutralized due to the absorption of a photon. In such experiments, where the ion beam is used only for a small fraction of the time, we show that the pulsed mode operation can increase the lifetime of a cathode by two orders of magnitude as compared with DC operation. We also investigate how the peak ion current compares with the ion c…

010302 applied physicsMaterials scienceIon beamPulse durationIon currentHigh voltage01 natural sciencesCathode010305 fluids & plasmasIonlaw.inventionPhysics::Plasma PhysicsSputteringlaw0103 physical sciencesAtomic physicsAbsorption (electromagnetic radiation)InstrumentationReview of Scientific Instruments
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A new 18 GHz room temperature electron cyclotron resonance ion source for highly charged ion beams

2020

An innovative 18 GHz HIISI (Heavy Ion Ion Source Injector) room temperature Electron Cyclotron Resonance (ECR) ion source (ECRIS) has been designed and constructed at the Department of Physics, University of Jyväskylä (JYFL), for the nuclear physics program of the JYFL Accelerator Laboratory. The primary objective of HIISI is to increase the intensities of medium charge states (M/Q ≅ 5) by a factor of 10 in comparison with the JYFL 14 GHz ECRIS and to increase the maximum usable xenon charge state from 35+ to 44+ to serve the space electronics irradiation testing program. HIISI is equipped with a refrigerated permanent magnet hexapole and a noncylindrical plasma chamber to achieve very stro…

010302 applied physicsMaterials scienceIon beamsyklotronittutkimuslaitteetHighly charged ionchemistry.chemical_elementhiukkaskiihdyttimet01 natural sciences7. Clean energyIon sourceElectron cyclotron resonance010305 fluids & plasmasIonXenonchemistry0103 physical sciencesIrradiationAtomic physicsInstrumentationBeam (structure)
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