2022
DOI: 10.1063/5.0085069
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Deceleration of highly charged Ni ions with compressed longitudinal kinetic energy distribution by a falling potential

Abstract: Higher-precision optical clocks based on highly charged ions (HCIs) have become one of the means to explore new physics beyond the standard model. Usually, HCIs are produced by electron bombardment with high kinetic energy. Therefore, to realize an optical clock, the deceleration of HCIs is necessary. In this study, the design and operation of a deceleration beamline to produce low-energy HCIs are presented. We used time-of-flight technology to select pure 58Ni12+ ions. The longitudinal kinetic energy distribu… Show more

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“…Achieving an optical clock based on HCIs requires the confinement of specific ions in a Paul trap at the end of the beamline [2]. The HCI beam undergoes charge selection and deceleration processes before injection into the trap [3]. In this work, we provide an overview of UNIST-EBIT.…”
Section: Introductionmentioning
confidence: 99%
“…Achieving an optical clock based on HCIs requires the confinement of specific ions in a Paul trap at the end of the beamline [2]. The HCI beam undergoes charge selection and deceleration processes before injection into the trap [3]. In this work, we provide an overview of UNIST-EBIT.…”
Section: Introductionmentioning
confidence: 99%