Synthesis of mixed hypermetallic oxide BaOCa⁺ from laser-cooled reagents in an atom-ion hybrid trap

Synthesis of mixed hypermetallic oxide BaOCa⁺ from laser-cooled reagents in an atom-ion hybrid trap

Hypermetallic alkaline earth (M) oxides of formula MOM have been studied under plasma conditions that preclude insight into their formation mechanism. We present here the application of emerging techniques in ultracold physics to the synthesis of a mixed hypermetallic oxide, BaOCa⁺. These methods, a...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2017-09, Vol.357 (6358), p.1370-1375
Hauptverfasser: Puri, Prateek, Mills, Michael, Schneider, Christian, Simbotin, Ionel, Montgomery, John A., Côté, Robin, Suits, Arthur G., Hudson, Eric R.
Format: Artikel
Sprache:eng
Schlagworte:
Atomic properties
Barium
Calcium
Calcium oxide
Chemical bonds
Chemical compounds
Cold
Collision dynamics
Electronic structure
Extreme cold
Kinetics
Laser cooling
Lime
Mathematical analysis
Oxides
Periodic table
Physics
Plasmas (physics)
Reaction kinetics
Reagents
RESEARCH ARTICLE
Synthesis
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Zusammenfassung:Hypermetallic alkaline earth (M) oxides of formula MOM have been studied under plasma conditions that preclude insight into their formation mechanism. We present here the application of emerging techniques in ultracold physics to the synthesis of a mixed hypermetallic oxide, BaOCa⁺. These methods, augmented by high-level electronic structure calculations, permit detailed investigation of the bonding and structure as well as the mechanism of its formation via the barrierless reaction of Ca (³PJ) with BaOCH₃⁺. Further investigations of the reaction kinetics as a function of collision energy over the range 0.005 kelvin (K) to 30 K and of individual Ca fine-structure levels compare favorably with calculations based on long-range capture theory.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.aan4701