Formation of two-ion crystals by injection from a Paul-trap source into a high-magnetic-field Penning trap
Metadatos
Afficher la notice complèteAuteur
Berrocal Sánchez, Joaquín; Altozano, E.; Domínguez González, Francisco; Gutiérrez, M. J.; Fernández Baldomero, Francisco J.; Rodríguez Rubiales, DanielEditorial
American Physical Society
Date
2022-05-16Referencia bibliográfica
Berrocal, J... [et al.] (2022). Formation of two-ion crystals by injection from a Paul-trap source into a high-magnetic-field Penning trap. Physical Review A, 105(5), 052603. DOI: [10.1103/PhysRevA.105.052603]
Patrocinador
Spanish Government PID2019-104093GB-I00/AEI/10.013 39/501100011033; Andalusian Government P18FR-3432 PTA2018-016573-I; Fondo Operativo FEDER A-FQM-425-UGR18; Spanish Government FPU17/02596; University of Granada "Plan Propio -Programa de Intensificacion de la Investigacion" PP2017-PRI.I-04; Laboratorios Singulares 2020; European Research Council (ERC) European Commission 278648TRAPSENSOR MICINN/FEDER/UGR FPA2015-67694-P FPA2012-32076 UNGR10-1E501 UNGR13-1E-1830 EQC2018-005130-P; Junta de Andalucia; European Commission IE-5713 IE2017-5513; Spanish MICINN ("Beatriz Galindo" Fellowship) BEAGAL18/00078; German Research Foundation (DFG); European Commission SFB/CRC 1227Résumé
Two-ion crystals constitute a platform for investigations of quantum nature that can be extended to any ion
species or charged particle provided one of the ions in the crystal can be directly laser cooled and manipulated
with laser radiation. This paper presents the formation of two-ion crystals for quantum metrology in a 7-tesla
open-ring Penning trap. 40Ca+ ions are produced either internally by photoionization or externally in a (Paul-trap)
source, transported through the strong magnetic field gradient of the superconducting solenoid, and captured
in-flight with a mean kinetic energy of a few electronvolts with respect to the minimum of the Penning-trap
potential well. Laser cooling of the two-ion crystal in a strong magnetic field towards reaching the quantum
regime is also presented, with particular emphasis on the cooling of the radial modes.