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dc.creatorMills, M
dc.creatorPuri, P
dc.creatorLi, M
dc.creatorSchowalter, SJ
dc.creatorDunning, A
dc.creatorSchneider, C
dc.creatorKotochigova, S
dc.creatorHudson, ER
dc.date.accessioned2020-12-16T16:17:13Z
dc.date.available2020-12-16T16:17:13Z
dc.date.issued2019-06-14
dc.identifier.issn0031-9007
dc.identifier.issn1079-7114
dc.identifier.doihttp://dx.doi.org/10.34944/dspace/4529
dc.identifier.other31298913 (pubmed)
dc.identifier.urihttp://hdl.handle.net/20.500.12613/4547
dc.description.abstract© 2019 American Physical Society. Using a recently developed method for precisely controlling collision energy, we observe a dramatic suppression of inelastic collisions between an atom and ion (Ca+Yb+) at low collision energy. This suppression, which is expected to be a universal phenomenon, arises when the spontaneous emission lifetime of the excited state is comparable to or shorter than the collision complex lifetime. We develop a technique to remove this suppression and engineer excited-state interactions. By dressing the system with a strong catalyst laser, a significant fraction of the collision complexes can be excited at a specified atom-ion separation. This technique allows excited-state collisions to be studied, even at ultracold temperature, and provides a general method for engineering ultracold excited-state interactions.
dc.format.extent233401-
dc.language.isoen
dc.relation.haspartPhysical Review Letters
dc.relation.isreferencedbyAmerican Physical Society (APS)
dc.rightsAll Rights Reserved
dc.subjectphysics.atom-ph
dc.subjectphysics.atom-ph
dc.titleEngineering Excited-State Interactions at Ultracold Temperatures
dc.typeArticle
dc.type.genrePre-print
dc.relation.doi10.1103/PhysRevLett.122.233401
dc.ada.noteFor Americans with Disabilities Act (ADA) accommodation, including help with reading this content, please contact scholarshare@temple.edu
dc.creator.orcidLi, Ming|0000-0003-0827-5976
dc.date.updated2020-12-16T16:17:09Z
refterms.dateFOA2020-12-16T16:17:14Z


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