Design, fabrication and characterization of a micro-fabricated stacked-wafer segmented ion trap with two X-junctions

Design, fabrication and characterization of a micro-fabricated stacked-wafer segmented ion trap with two X-junctions

We describe the implementation of a three-dimensional Paul ion trap fabricated from a stack of precision-machined silica glass wafers, which incorporates a pair of junctions for two-dimensional ion transport. The trap has 142 dedicated electrodes which can be used to definemultiple potential wells i...

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Veröffentlicht in:Quantum science and technology 2021-10, Vol.6 (4), p.44001, Article 044001
Hauptverfasser: Decaroli, Chiara, Matt, Roland, Oswald, Robin, Axline, Christopher, Ernzer, Maryse, Flannery, Jeremy, Ragg, Simon, Home, Jonathan P
Format: Artikel
Sprache:eng
Schlagworte:
ion trap design and technology
laser micromachining
Physical Sciences
Physics
Physics, Multidisciplinary
quantum computing
Quantum Science & Technology
quantum-CCD architecture
scalable ion traps
Science & Technology
trapped ion transport
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Zusammenfassung:We describe the implementation of a three-dimensional Paul ion trap fabricated from a stack of precision-machined silica glass wafers, which incorporates a pair of junctions for two-dimensional ion transport. The trap has 142 dedicated electrodes which can be used to definemultiple potential wells in which strings of ions can be held. By supplying time-varying potentials, this also allows for transport and re-configuration of ion strings. We describe the design, simulation, fabrication and packaging of the trap, including explorations of different parameter regimes and possible optimizations and design choices. We give results of initial testing of the trap, including measurements of heating rates and junction transport.
ISSN:2058-9565
2058-9565
DOI:10.1088/2058-9565/ac07ee