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With the emergence of different quantum computers approaches, ion-trapped based quantum processors offer a promising concept with coherence times of over 2 s and gate times of 10 to 80 µs with fidelities of over 99.9%. In such systems, ions are being held inside a linear quadrupole trap in defined position zones. The laser induced qubit rotation, initialization and readout operations require an ion individual addressing unit. Our hardware is able to create individual laser foci for 10 captured ions with beam waists of 1.1 µm. Qubit manipulations are realized with a laser wavelength of 396 nm employing 40Ca+ ions.
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Marcus Babin, Erik Beckert, Peter Schreiber, Felix Kraze, Simone Fabian, "Individual addressing of trapped ions for UV-based quantum gate operations," Proc. SPIE PC12446, Quantum Computing, Communication, and Simulation III, PC124460E (9 March 2023); https://doi.org/10.1117/12.2651901