Laser resonance chromatography: First commissioning results and future prospects

Laser resonance chromatography: First commissioning results and future prospects

We report first results obtained during the commissioning of the Laser Resonance Chromatography (LRC) apparatus, which is conceived to enable atomic structure investigations in the region of the heaviest elements beyond nobelium. In our studies we first established optimum conditions for the operati...

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Bibliographic Details
Published in:Nuclear instruments & methods in physics research. Section B, Beam interactions with materials and atoms Vol. 555; p. 165461
Main Authors: Kim, EunKang, Jana, Biswajit, Arya, Aayush, Block, Michael, Raeder, Sebastian, Ramanantoanina, Harry, Rickert, Elisabeth, Romero, Elisa Romero, Laatiaoui, Mustapha
Format: Journal Article
Language:English
Published: Elsevier B.V 01-10-2024
Subjects:
Electronic state chromatography
Ion mobility
Laser resonance chromatography
Laser spectroscopy
Linear paul traps
Superheavy elements
Laser resonance chromatography
Ion mobility
Superheavy elements
Electronic state chromatography
Laser spectroscopy
Linear paul traps
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Summary:We report first results obtained during the commissioning of the Laser Resonance Chromatography (LRC) apparatus, which is conceived to enable atomic structure investigations in the region of the heaviest elements beyond nobelium. In our studies we first established optimum conditions for the operation of the different components of the setup, including the radio-frequency quadrupole ion buncher and the cryogenic drift tube, which was operated with helium buffer gas at relatively low electric fields. We used laser ablated hafnium, lutetium, and ytterbium cations to assess the chromatography performance of the drift tube at a gas temperature of 295 K. Arrival time distributions of singly charged lutetium revealed two distinct ion mobilities of this ion in the ground and metastable state in helium with a relative difference of about 19%. By using 219Rn ions from a 223Ra recoil source the overall efficiency of the apparatus is found to be (0.6±0.1)%. The findings help to establish LRC on lutetium, which is the lighter chemical homolog of lawrencium.
ISSN:0168-583X
DOI:10.1016/j.nimb.2024.165461