Yong Wan

Category
Position
Email
yongwan@ustc.tsg211.com
Address
Xiupu Road 99, Pudong New district, Shanghai, China
Introduction

2014年在德国汉诺威大学及德国物理技术研究院(PTB)获得博士学位,研究方向为囚禁离子精密测量;2014年至2019年在美国国家标准与技术研究院(NIST)离子囚禁研究小组从事离子阱量子计算方向的博士后研究工作。近年来主要学术成果包括:混合离子逻辑门;分子离子的非破坏性态探测;铍离子的高保真通用逻辑门组;囚禁离子处理器中的确定性量子隐形门操作。在Science(1篇)、Nature(2篇)、Nature Communications(1篇)、Physical Review X(1篇)、Physical Review Letters(4篇)、Advanced Quantum Technologies(1篇)等国际学术期刊上发表论文10余篇。2021年5月加入中科大量子部,主要研究方向是单离子和单光子的囚禁与操控、单离子与单光子间的信息转换、以及离子阱量子中继及远距离量子信息传输技术。相关工作曾入选2016年英国物理学会(IOP Physics World)评选的“物理学年度突破”、2020年美国商务部评选的“Gold Medal Award”。

Related Publications

  • Wan, Y., Robert, ordens, Erickson, S., Wu, J., Bowler, R., Tan, T., Hou, P. ‐Y., Wineland, D., Wilson, A. & Leibfried, D. Ion Transport and Reordering in a 2D Trap Array. Advanced Quantum Technologies 3, 2000028 (2020).
  • Kienzler, D., Wan, Y., Erickson, S., Wu, J., Wilson, A., Wineland, D. & Leibfried, D. Quantum Logic Spectroscopy with Ions in Thermal Motion. Physical Review X 10, 1-9 (2020).
  • Wan, Y., Kienzler, D., Erickson, S., Mayer, K., Tan, T., Wu, J., Vasconcelos, H., Glancy, S., Knill, E., Wineland, D., Wilson, A. & Leibfried, D. Quantum gate teleportation between separated qubits in a trapped-ion processor. Science 364, 875-878 (2019).
  • Wolf, F., Wan, Y., Heip, J., Gebert, F., Shi, C. & Schmidt, P. Non-destructive state detection for quantum logic spectroscopy of molecular ions. Nature 530, 457-460 (2016).
  • Gaebler, J., Tan, T., Lin, Y., Wan, Y., Bowler, R., Keith, A., Glancy, S., Coakley, K., Knill, E., Leibfried, D. & Wineland, D. High-Fidelity Universal Gate Set for Be 9 + Ion Qubits. Physical Review Letters 117, 1-5 (2016).
  • Tan, T., Gaebler, J., Lin, Y., Wan, Y., Bowler, R., Leibfried, D. & Wineland, D. Multi-element logic gates for trapped-ion qubits. Nature 528, 380-383 (2015).
  • Wan, Y., Gebert, F., ubbena, J., Scharnhorst, N., Amairi, S., Leroux, I., Hemmerling, orge, Niels, orch, Hammerer, K. & Schmidt, P. Precision spectroscopy by photon-recoil signal amplification. Nature Communications 5, 1-6 (2014).