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Laser Resonance Chromatography of Superheavy Elements

M. Laatiaoui, Alexei A. Buchachenko, Larry A. Viehland

2020Physical Review Letters18 citationsDOIOpen Access PDF

Abstract

Optical spectroscopy constitutes the historical path to accumulate basic knowledge on the atom and its structure. Former work based on fluorescence and resonance ionization spectroscopy enabled identifying optical spectral lines up to element 102, nobelium. The new challenges faced in this research field are the refractory nature of the heavier elements and the decreasing production yields. A new concept of ion-mobility-assisted laser spectroscopy is proposed to overcome the sensitivity limits of atomic structure investigations persisting in the region of the superheavy elements. The concept offers capabilities of both broadband-level searches and high-resolution hyperfine spectroscopy of synthetic elements beyond nobelium.

Topics & Concepts

SpectroscopyHyperfine structureIonizationLaserAtomic physicsSpectral resolutionMaterials sciencePhysicsSpectral lineOpticsIonAstronomyQuantum mechanicsMass Spectrometry Techniques and ApplicationsAnalytical chemistry methods developmentRadioactive element chemistry and processing
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