大規模・高コヒーレンスな動的原子アレー型・
誤り耐性量子コンピュータ

Realization of a fault-tolerant universal quantum computer that will revolutionize economy, industry, and security by 2050.

2022: start of our Moonshot project [cold-atom based quantum computer]

Academic research teams, around the world and in Japan, have obtained fantastic results for quantum computation with cold-atoms. It is now time to scale up the system, collaborate between research teams and industries, and take on the challenge of fault-tolerant operation of cold-atom based quantum computers. Our Moonshot project is born!

2030: Large-scale, sophisticated cold-atom quantum computer with error correction

2050: Quantum computers revolutionize our society and complete the 2nd quantum revolution.

Cold-atom based quantum computers have scaled up in size to a level where they can now tackle and solve complicated problems. They find numerous applications in economy, industry and security, revolutionizing our society. This completes the dream of the 2nd quantum revolution.

About

We will implement a “dynamical qubit array” in which a large number of cold-atom qubits are assembled with optical tweezers, and each of them is moved arbitrarily and at high speed to perform gate operations as well as error detections and corrections. Furthermore, under close industry-academia collaborations, all components will be integrated and packaged to achieve unprecedentedly high stability and usability. Through these innovations, we aim to realize a fault-tolerant quantum computer that will revolutionize economy, industry, and security by 2050.

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Contact information for this project

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About Moonshot Goal 6

MOONSHOT

Realization of a fault-tolerant universal quantum computer that will revolutionize economy, industry, and security by 2050

About Moonshot R&D

国立研究開発法人 科学技術振興機構

Department of Moonshot Research and Development Program, Japan Science and Technology Agency (JST)