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Freiburg 2019 – wissenschaftliches Programm

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FM: Fall Meeting

FM 78: Quantum Computation: Hardware Platform III

FM 78.1: Invited Talk

Donnerstag, 26. September 2019, 14:00–14:30, 1199

Quantum Information Processing using Trapped Atomic Ions and MAGICTheeraphot Sriarunothai1, Sabine Wölk4, Gouri S. Giri5, Nicolai Friis2, Vedran Dunjko3, Hans J. Briegel4, Patrick Barthel1, Patrick Huber1, and •Christof Wunderlich11Siegen University, Germany — 2Austrian Academy of Sciences, Vienna, Austria — 3Leiden University, Netherlands — 4Innsbruck University, Austria — 5Düsseldorf University, Germany

Using ion traps that allow for long-range magnetic gradient induced coupling (MAGIC) [1], laser light can be replaced by long-wavelength radiation in the radio-frequency (RF) regime, thus facilitating scalability.

Using a freely programmable quantum computer (QC) based on MAGIC, we report on a proof-of-principle experimental demonstration of the deliberation process in the framework of reinforcement learning [2]. This experiment at the boundary between quantum information science and machine learning shows that decision making for reinforcement learning is sped up quadratically on a QC as compared to a classical agent.

Then we report on 2-qubit RF gates that are robust against variations in the secular trap frequency and Rabi frequency. In future traps such gates will increase speed and fidelity of multi-qubit gates.

[1] C. Piltz et al.,Science Advances 2, e1600093 (2016).

[2] Th. Sriarunothai et al., Quantum Sci. Technol.4, 015014 (2019).

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