An Accessible Planar Ion Trap for Experiential Learning in Quantum Technologies

We describe an inexpensive and accessible instructional setup which explores ion trapping with a planar linear ion trap. The planar trap is constructed using standard printed circuit board manufacturing and is designed to trap macroscopic charged particles in air. Trapping, shuttling, and splitting...

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Hauptverfasser: Thomas, Robert E, Wolfram, Cole E, Warren, Noah B, Fouch, Isaac J, Blinov, Boris B, Parsons, Maxwell F
Format: Artikel
Sprache:eng
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Zusammenfassung:We describe an inexpensive and accessible instructional setup which explores ion trapping with a planar linear ion trap. The planar trap is constructed using standard printed circuit board manufacturing and is designed to trap macroscopic charged particles in air. Trapping, shuttling, and splitting is demonstrated to students using these particles, visible to the naked eye. Students have control over trap voltages and can compare properties of particle motion to an analytic model of the trap using a computer vision program for particle tracking. Learning outcomes include understanding the design considerations for planar RF traps, mechanisms underpinning ion ejection, the physics of micromotion, and methods of data analysis using standard computer vision libraries.
DOI:10.48550/arxiv.2410.08301