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Quantum computer-aided design for advanced superconducting qubit:Plasmonium

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ã€Authorã€‘ Feng-Ming Liu;Can Wang;Ming-Cheng Chen;He Chen;Shao-Wei Li;Zhong-Xia Shang;Chong Ying;Jian-Wen Wang;Yong-Heng Huo;Cheng-Zhi Peng;Xiaobo Zhu;Chao-Yang Lu;Jian-Wei Pan;Hefei National Research Center for Physical Sciences at the Microscale and Department of Modern Physics, University of Science and Technology of China;Shanghai Branch CAS Centre for Excellence and Synergetic Innovation Centre in Quantum Information and Quantum Physics, University of Science and Technology of China;Shanghai Research Center for Quantum Sciences;

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ã€æœºæž„ã€‘ Hefei National Research Center for Physical Sciences at the Microscale and Department of Modern Physics, University of Science and Technology of Chinaï¼› Shanghai Branch CAS Centre for Excellence and Synergetic Innovation Centre in Quantum Information and Quantum Physics, University of Science and Technology of Chinaï¼› Shanghai Research Center for Quantum Sciencesï¼›

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ã€Abstractã€‘ Complex quantum electronic circuits can be used to design noise-protected qubits,but their complexity may exceed the capabilities of classical simulation.In such cases,quantum computers are necessary for efficient simulation.In this work,we demonstrate the use of variational quantum computing on a transmon-based quantum processor to simulate a superconducting quantum electronic circuit and design a new type of qubit called "Plasmonium",which operates in the plasmon-transition regime.The fabricated Plasmonium qubits show a high two-qubit gate fidelity of 99.58(3)%,as well as a smaller physical size and larger anharmonicity compared to transmon qubits.These properties make Plasmonium a promising candidate for scaling up multi-qubit devices.Our results demonstrate the potential of using quantum computers to aid in the design of advanced quantum processors.æ›´å¤š è¿˜åŽŸ

ã€å…³é”®è¯ã€‘ Quantum simulationï¼› Quantum computer-aided designï¼› Variational quantum algorithmï¼› Superconducting qubitï¼› Anharmonicityï¼›
ã€Key wordsã€‘ Quantum simulationï¼› Quantum computer-aided designï¼› Variational quantum algorithmï¼› Superconducting qubitï¼› Anharmonicityï¼›

ã€åŸºé‡‘ã€‘ supported by the National Natural Science Foundation of China (91836303 and 11805197);the National Key R&D Program of China;the Chinese Academy of Sciences;the Anhui Initiative in Quantum Information Technologies;the Science and Technology Commission of Shanghai Municipality (2019SHZDZX01)

ã€æ–‡çŒ®å‡ºå¤„ã€‘ Science Bulletin ,ç§‘å¦é€šæŠ¥(è‹±æ–‡ç‰ˆ) , ç¼–è¾‘éƒ¨é‚®ç®± ,2023å¹´15æœŸ

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