Litcius/Paper detail

Trapped-Ion Quantum Computer with Robust Entangling Gates and Quantum Coherent Feedback

Tom Manovitz, Yotam Shapira, Lior Gazit, Nitzan Akerman, Roee Ozeri

2022PRX Quantum46 citationsDOIOpen Access PDF

Abstract

Quantum computers are expected to achieve a significant speed-up over classical computers in solving a range of computational problems. Chains of ions held in a linear Paul trap are a promising platform for constructing such quantum computers, due to their long coherence times and high quality of control. Here, we report on the construction of a small five-qubit universal quantum computer using 88 Sr + ions in a radiofrequency (rf) trap. All basic operations, including initialization, quantum logic operations, and readout, are performed with high fidelity. Selective two-qubit and single-qubit gates, implemented using a narrowline-width laser, comprise a universal gate set, allowing realization of any unitary on the quantum register. We review the main experimental tools and describe in detail unique aspects of the computer: the use of robust entangling gates and the development of a quantum coherent feedback system through electronmultiplying CCD camera acquisition. The latter is necessary for carrying out quantum error-correction protocols in future experiments.

Topics & Concepts

Quantum computerComputer scienceQubitQuantum informationQuantum error correctionQuantum circuitQuantum technologyQuantumComputer engineeringPhysicsTheoretical computer scienceQuantum mechanicsOpen quantum systemQuantum Information and CryptographyQuantum Computing Algorithms and ArchitectureQuantum optics and atomic interactions