汪野

邮件
yewang2022@ustc.edu.cn
地址
安徽合肥金寨路96号,中国科学技术大学,物质科学楼
个人简介

汪野,2018年在清华大学获得博士学位,研究方向为基于囚禁离子系统的量子操控、量子模拟与相关技术研发;2018年至2022年在美国杜克大学作为博士后研究员和研究科学家参与容错量子计算及量子纠错研究。

近年来主要学术成果包括:超长单量子比特相干时间;长离子链中高保真度量子纠缠门;一体式芯片离子阱;变分量子算法优化。在Nature Photonics(1篇)、Nature Communication(1篇)、Science Advances(1篇)、Phys. Rev. Lett(3篇)等国际重要学术刊物上发表论文十余篇。相关工作保持单量子比特相干时间和长离子链中纠缠门保真度的记录。

2022年加入量子物理与量子信息研究部,主要研究方向为基于囚禁离子的量子计算以及量子纠错。

相关论文

  • Wang, P., Zhang, J., Luan, C., Um, M., Wang, Y., Qiao, M., Xie, T., Zhang, J., Cabello, A. & Kim, K. Significant loophole-free test of Kochen-Specker contextuality using two species of atomic ions. Science Advances 8, 1-8 (2022).
  • Zhang, B., Majumder, S., Leung, P., Crain, S., Wang, Y., Fang, C., Debroy, D., Kim, J. & Brown, K. Hidden Inverses: Coherent Error Cancellation at the Circuit Level. Physical Review Applied 17, 034074 (2022).
  • Kang, M., Liang, Q., Zhang, B., Huang, S., Wang, Y., Fang, C., Kim, J. & Brown, K. Batch Optimization of Frequency-Modulated Pulses for Robust Two-Qubit Gates in Ion Chains. Physical Review Applied 16, 024039 (2021).
  • Qiao, M., Wang, Y., Cai, Z., Du, B., Wang, P., Luan, C., Chen, W., Noh, H. & Kim, K. Double-Electromagnetically-Induced-Transparency Ground-State Cooling of Stationary Two-Dimensional Ion Crystals. Physical Review Letters 126, 23604 (2021).
  • Wang, P., Luan, C., Qiao, M., Um, M., Zhang, J., Wang, Y., Yuan, X., Gu, M., Zhang, J. & Kim, K. Single ion qubit with estimated coherence time exceeding one hour. Nature Communications 12, 233 (2021).
  • Wang, Y., Crain, S., Fang, C., Zhang, B., Huang, S., Liang, Q., Leung, P., Brown, K. & Kim, J. High-Fidelity Two-Qubit Gates Using a Microelectromechanical-System-Based Beam Steering System for Individual Qubit Addressing. Physical Review Letters 125, 150505 (2020).
  • Wang, Y., Qiao, M., Cai, Z., Zhang, K., Jin, N., Wang, P., Chen, W., Luan, C., Du, B., Wang, H., Song, Y., Yum, D. & Kim, K. Coherently Manipulated 2D Ion Crystal in a Monolithic Paul Trap. Advanced Quantum Technologies 3, 1-13 (2020).
  • Wang, Y. Single-qubit quantum memory exceeding ten-minute coherence time. Nature Photonics 11, 646-650 (2017).