Search results for "Electron beam ion trap"

showing 10 items of 15 documents

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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Astrophysics and spectroscopy with microcalorimeters on an electron beam ion trap

2003

The importance of the combination of electron beam ion trap (EBIT) spectroscopy with X-ray microcalorimeters in the field of astrophysics was discussed. X-ray astronomy involves heavily charged ion instruments , especially EBIT, to obtain improved quality atomic data. In this regard, the research program at the National Institute of Standards and Technology, which uses X-ray spectroscopic methods to study plasma and atomic physics, was also discussed.

PhysicsNuclear and High Energy PhysicsAstrophysics::Instrumentation and Methods for AstrophysicsX-rayHighly charged ionSurfaces Coatings and FilmFizikai tudományokSurfaces and InterfacesPlasmaAstrophysicsHighly charged ionIonX-rayNuclear physicsSettore FIS/05 - Astronomia E AstrofisicaTermészettudományokMicrocalorimeterIonizationCathode rayAtomic physicsLaboratory astrophysicSpectroscopyElectron beam ion trapInstrumentationElectron beam ion trapNuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms
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EBIT trapping program

1993

The LLNL electron beam ion trap provides the world's only source of stationary highly charged ions up to bare U. This unique capability makes many new atomic and nuclear physics experiments possible.

Condensed Matter::Quantum GasesPhysicsNuclear and High Energy PhysicsCyclotron resonanceTrappingCondensed Matter PhysicsMass spectrometryAtomic and Molecular Physics and OpticsCharged particleIonNuclear physicsPhysics::Plasma PhysicsPhysics::Accelerator PhysicsPhysics::Atomic PhysicsPhysical and Theoretical ChemistryAtomic physicsRadioactive decayElectron ionizationElectron beam ion trapHyperfine Interactions
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Production of highly charged ions of rare species by laser-induced desorption inside an electron beam ion trap

2019

This paper reports on the development and testing of a novel, highly efficient technique for the injection of very rare species into electron beam ion traps (EBITs) for the production of highly charged ions (HCI). It relies on in-trap laser-induced desorption of atoms from a sample brought very close to the electron beam resulting in a very high capture efficiency in the EBIT. We have demonstrated a steady production of HCI of the stable isotope 165Ho from samples of only 1012 atoms (∼300 pg) in charge states up to 45+. HCI of these species can be subsequently extracted for use in other experiments or stored in the trapping volume of the EBIT for spectroscopic measurements. The high efficie…

Speichertechnik - Abteilung BlaumMaterials scienceAtomic Physics (physics.atom-ph)Electron captureElectronvoltFOS: Physical scienceschemistry.chemical_element01 natural sciences7. Clean energyPhysics - Atomic Physics010305 fluids & plasmasIon0103 physical sciencesPhysics::Atomic PhysicsInstrumentation010302 applied physicsRange (particle radiation)Stable isotope ratioPhysics - Plasma PhysicsAtomic massPlasma Physics (physics.plasm-ph)chemistryddc:620Atomic physicsHolmiumElectron beam ion trapReview of Scientific Instruments
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Pulsed gas injection for X-ray spectroscopy of highly charged ions stored in the magnetic trapping mode of an electron beam ion trap

1998

Abstract Highly charged atoms produced in an electron beam ion trap were stored after the electron beam was turned off by operating the trap in the magnetic trapping mode. Such storage allowed monitoring charge exchange reactions between the stored ions and residual neutral gas present in the trap by X-ray detection. The charge exchange reactions were enhanced by the application of a pulse of neutral gas. The method was exemplified for the case of H-like uranium interacting with neutral neon, where the K-shell X-rays and the series limit for the electron capture of U91+ were observed.

Condensed Matter::Quantum GasesNuclear and High Energy PhysicsIon beamElectron capturechemistry.chemical_elementPenning trapIonNeonchemistryCathode rayPhysics::Atomic PhysicsIon trapAtomic physicsInstrumentationElectron beam ion trapNuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms
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Laboratory astrophysics survey of key x-ray diagnostic lines using a microcalorimeter on an electron beam ion trap

2000

Cosmic plasma conditions created in an electron beam ion trap (EBIT) make it possible to simulate the dependencies of key diagnostic X-ray lines on density, temperature, and excitation conditions that exist in astrophysical sources. We used a microcalorimeter for such laboratory astrophysics studies because it has a resolving power ≈1000, quantum efficiency approaching 100%, and a bandwidth that spans the X-ray energies from 0.2 keV to 10 keV. Our microcalorimeter, coupled with an X-ray optic to increase the effective solid angle, provides a significant new capability for laboratory astrophysics measurements. Broadband spectra obtained from the National Institute of Standards and Technology…

Physics::Instrumentation and DetectorsAstrophysics::High Energy Astrophysical Phenomenachemistry.chemical_elementFizikai tudományokAstrophysicsSpectral lineNeonTermészettudományokAtomic processeIonizationPhysics::Atomic PhysicsAtomic dataNuclear and High Energy PhysicPhysicsArgonKryptonAstronomy and AstrophysicsLine: IdentificationPlasmaX-rays: GeneralchemistrySpace and Planetary ScienceAstrophysical plasmaMethods: Laboratory plasmaAtomic physicsElectron 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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First Fourier-transform ion cyclotron resonance signals of very highly charged atomic ions

1994

We report on the first application of Fourier-transform ion cyclotron resonance mass spectrometry to the very highly charged ions produced in the high-energy electron beam ion trap (SuperEBIT) at the Lawrence Livermore National Laboratory. Initial results are described, and spectra are presented from ions as highly charged as Cs53+.

ChemistryOrganic ChemistryAnalytical chemistryMass spectrometryFourier transform ion cyclotron resonanceSpectral lineAnalytical ChemistryIonPhysics::Plasma PhysicsSelected ion monitoringIon trapAtomic physicsSpectroscopyIon cyclotron resonanceElectron beam ion trapRapid Communications in Mass Spectrometry
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Charge breeding rare isotopes for high precision mass measurements: challenges and opportunities

2013

Ion charge breeding for Penning-trap mass spectrometry has been established as providing a precision increase that scales linearly with the charge state of the ion. Fast and efficient charge breeding is a precondition for the application of this approach to rare isotopes. However, in view of low yields and short half-lives the precision boost is partly compromised by unavoidable ion losses inherent to the charge breeding process. The mass spectrometer TRIUMFs ion trap for atomic and nuclear science is pioneering this field by coupling a Penning trap and an electron beam ion trap to the rare-isotope beam facility ISAC at TRIUMF. Here we present simulations that calculate and maximize the eff…

PhysicsIsotopeCharge (physics)Condensed Matter PhysicsPenning trapMass spectrometryAtomic and Molecular Physics and OpticsIonNuclear physicsPhysics::Plasma PhysicsPhysics::Atomic PhysicsIon trapNuclideAtomic physicsNuclear ExperimentMathematical PhysicsElectron beam ion trapPhysica Scripta
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