2019年4月 - 2023年3月
ハイブリッド量子系における非線形現象
日本学術振興会 科学研究費助成事業 基盤研究(A) 基盤研究(A)
- 課題番号
- 19H00662
- 体系的課題番号
- JP19H00662
- 担当区分
- 研究分担者
- 配分額
-
- (総額)
- 45,110,000円
- (直接経費)
- 34,700,000円
- (間接経費)
- 10,410,000円
Beginning the second year of the project our simulation code was implemented on a 200 nodes cluster with 3 TB RAM. This allowed larger scale simulation over longer time scales. Enhanced simulations of the dynamics of a double domain nuclear spin ensemble coupled to the Nambu-Goldstone boson were undertaken with realistic parameters. The simulation reproduced the experimental observed data. Our work opens up the possibility for the exploration of novel collective behavior in solid state systems where the natural energies associated with those spins are much less than the thermal energy (published in PRB Letters).
<BR>
Next, we explored a quantum battery protocol using super radiance and absorption. This protocol using dark states to achieve both super extensive capacity and power density, with spins coupled to a reservoir. Quantum correlations are essential for this to be achieved. Further, the power density scales with the number of spins N in the battery. While connected to the charger, the charged state of the battery is a steady state, stabilized through quantum interference in the open system (published in Phys. Rev. Applied).
<BR>
We also continued our exploration of HQS for quantum simulation. We used our simulator to explore discrete time crystals, a novel state of matter, emerging in periodically driven quantum systems (ensembles of qubits). We found that a small amount of disorder results in network evolution that exhibits an emergent preferential attachment mechanism related to the existence of scale-free networks. This work was published in Science Advances.
<BR>
Next, we explored a quantum battery protocol using super radiance and absorption. This protocol using dark states to achieve both super extensive capacity and power density, with spins coupled to a reservoir. Quantum correlations are essential for this to be achieved. Further, the power density scales with the number of spins N in the battery. While connected to the charger, the charged state of the battery is a steady state, stabilized through quantum interference in the open system (published in Phys. Rev. Applied).
<BR>
We also continued our exploration of HQS for quantum simulation. We used our simulator to explore discrete time crystals, a novel state of matter, emerging in periodically driven quantum systems (ensembles of qubits). We found that a small amount of disorder results in network evolution that exhibits an emergent preferential attachment mechanism related to the existence of scale-free networks. This work was published in Science Advances.
- ID情報
-
- 課題番号 : 19H00662
- 体系的課題番号 : JP19H00662
この研究課題の成果一覧
絞り込み
論文
4-
Physical Review Research 5(4) 043295-1-043295-11 2023年12月26日 査読有り
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Physical Review B 104(14) L140303-1-L140303-6 2021年10月19日 査読有り
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Applied Physics Letters 119(11) 110501-1-110501-7 2021年9月15日 査読有り
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Physical Review B 102(22) 224307-1-224307-10 2020年12月21日 査読有り
講演・口頭発表等
10-
51st RQC Seminar (RIKEN Center for Quantum Computing), 2023/6/4-2023/6/10, Riken, Saitama 2023年6月5日 招待有り
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Quantum Materials Seminar, University of California Berkeley 2023年3月14日
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APS March Meeting 2023 Las Vegas, Nevada, US (Presentation ID: T64.00011) 2023年3月9日
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APS March Meeting 2023, Las Vegas, Nevada (Presentation ID: N67.00001) 2023年3月8日
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Quantum 2.0 2022 Boston, MA United States 2022年6月13日
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CLEO: QELS_Fundamental Science 2022 2022年5月20日 招待有り
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Photonics West on Demand, San Francisco, USA 2022年2月21日
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SPIE OPTO, 2022 2022年2月21日 招待有り
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ISNTT 2021, Virtual, Japan (International Symposium on Novel maTerials and quantum Technologies ISNTT 2021) 2021年12月15日
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AQIS 2021 2021年9月2日