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High-Threshold Fault-Tolerant Quantum Computation with Analog Quantum Error Correction
High-Threshold Fault-Tolerant Quantum Computation with Analog Quantum Error Correction
by Fujii, Keisuke , Fukui, Kosuke , Okamoto, Atsushi , Tomita, Akihisa
in Compressing / Continuity (mathematics) / Error correction / Error correction & detection / Fault tolerance / Maximum likelihood method / Momentum / Quantum computers / Quantum computing / Qubits (quantum computing) / Reliability engineering / Squeezed states (quantum theory) / Uncertainty
2018
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High-Threshold Fault-Tolerant Quantum Computation with Analog Quantum Error Correction
by Fujii, Keisuke , Fukui, Kosuke , Okamoto, Atsushi , Tomita, Akihisa
in Compressing / Continuity (mathematics) / Error correction / Error correction & detection / Fault tolerance / Maximum likelihood method / Momentum / Quantum computers / Quantum computing / Qubits (quantum computing) / Reliability engineering / Squeezed states (quantum theory) / Uncertainty
2018
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High-Threshold Fault-Tolerant Quantum Computation with Analog Quantum Error Correction
High-Threshold Fault-Tolerant Quantum Computation with Analog Quantum Error Correction
by Fujii, Keisuke , Fukui, Kosuke , Okamoto, Atsushi , Tomita, Akihisa
in Compressing / Continuity (mathematics) / Error correction / Error correction & detection / Fault tolerance / Maximum likelihood method / Momentum / Quantum computers / Quantum computing / Qubits (quantum computing) / Reliability engineering / Squeezed states (quantum theory) / Uncertainty
2018

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High-Threshold Fault-Tolerant Quantum Computation with Analog Quantum Error Correction
High-Threshold Fault-Tolerant Quantum Computation with Analog Quantum Error Correction
Journal Article

High-Threshold Fault-Tolerant Quantum Computation with Analog Quantum Error Correction

Fujii, Keisuke,
Fukui, Kosuke,
Okamoto, Atsushi,
Tomita, Akihisa
2018
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Overview
To implement fault-tolerant quantum computation with continuous variables, the Gottesman-Kitaev-Preskill (GKP) qubit has been recognized as an important technological element. However, it is still challenging to experimentally generate the GKP qubit with the required squeezing level, 14.8 dB, of the existing fault-tolerant quantum computation. To reduce this requirement, we propose a high-threshold fault-tolerant quantum computation with GKP qubits using topologically protected measurement-based quantum computation with the surface code. By harnessing analog information contained in the GKP qubits, we apply analog quantum error correction to the surface code. Furthermore, we develop a method to prevent the squeezing level from decreasing during the construction of the large-scale cluster states for the topologically protected, measurement-based, quantum computation. We numerically show that the required squeezing level can be relaxed to less than 10 dB, which is within the reach of the current experimental technology. Hence, this work can considerably alleviate this experimental requirement and take a step closer to the realization of large-scale quantum computation.
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Publisher
American Physical Society
Subject

Compressing

/ Continuity (mathematics)

/ Error correction

/ Error correction & detection

/ Fault tolerance

/ Maximum likelihood method

/ Momentum

/ Quantum computers

/ Quantum computing

/ Qubits (quantum computing)

/ Reliability engineering

/ Squeezed states (quantum theory)

/ Uncertainty

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