6533b81ffe1ef96bd12784a9

RESEARCH PRODUCT

First Determination of the Ionization Potential of Actinium and First Observation of Optical Transitions in Ferminm

Hartmut BackePeter KunzP. ThörlePeter SchwambRoland RepnowKlaus EberhardtDirk SchwalmA. DretzkeG. HuberC. GrüningWerner LauthJens LassenGerald GwinnerNorbert TrautmannJens Volker KratzA. WaldekMichael SewtzRichard G. HaireGerd PasslerStephan FritzscheG. Kube

subject

Nuclear and High Energy PhysicsChemistryBuffer gasAnalytical chemistryThermal ionizationchemistry.chemical_elementIonActiniumNuclear Energy and EngineeringExcited stateIonizationAtomic physicsIonization energyExcitation

description

For the determination of the first ionization potential of actinium, 227Ac was electrodeposited on a Ta backing and covered with ~1 μm Zr. From this filament, Ac atoms were evaporated at ≥ 1250 °C. By resonant excitation with UV light of 388.67 nm and subsequent excitation with light of ca. 568 nm, Ac was ionized in an external electrical field. By determining the ionization thresholds as a function of the electrical field strength and by extrapolation to zero field strength, the first ionization potential of 43398(3) cm−1 = 5.3807(3) eV was measured.About 1 ng of 255Fm, half life 20.1 h, was prepared at ORNL by milking from 255Es produced in the High Flux Isotope Reactor and shipped to Mainz. Here, a fraction of 2.7 · 1010 atoms was electrodeposited on a Ta backing and covered with ~ 1 μm Ti. From this filament, Fm atoms were evaporated at ~ 1000 °C in the buffer gas of an optical cell and resonantly excited and ionized with two beams of an excimer-dye-laser combination. The ions were identified by mass-...

yearjournalcountryeditionlanguage
2002-11-01Journal of Nuclear Science and Technology
https://doi.org/10.1080/00223131.2002.10875414