量子科技研究院Seminar第68讲暨物理学科Seminar第747讲 基于纳米线的混合集成光子电路

创建时间:  2025/06/30  邵奋芬   浏览次数:   返回

报告题目 (Title):Nanowire-based hybrid integrated photonic circuits(基于纳米线的混合集成光子电路)

报告人 (Speaker):高俊 研究员(Royal Institute of Technology)

报告时间 (Time):2025年7月3日(周四)10:30-12:00

报告地点 (Place):校本部 G601

邀请人(Inviter):钟建新

主办部门:量子科技研究院/8455新葡萄场网站物理系

报告摘要:

Quantum computing has emerged as a transformative paradigm, offering exponential speedup for a range of complex computational challenges. Photonic systems, with their high coherence, low noise, and rapid processing speeds, are well-suited for implementing quantum information processing tasks. In this talk, I will briefly introduce the hybrid quantum integrated photonic circuits developed in our group with special focus on nanowire quantum emitters. The hybrid integration approach provides means of miniaturization to efficiently integrate all elementary building blocks and presents new methodologies specifically for an all-on-chip scheme on a photonic platform. I will also discuss our recent progress in programmable photonic circuits on the silicon photonics platform, as well as progress on a solid-state, Rydberg-exciton-based quantum simulator.



下一条:数学学科Seminar第2883讲 玻尔兹曼方程mild解的解析半径及Gevrey正则性


量子科技研究院Seminar第68讲暨物理学科Seminar第747讲 基于纳米线的混合集成光子电路

创建时间:  2025/06/30  邵奋芬   浏览次数:   返回

报告题目 (Title):Nanowire-based hybrid integrated photonic circuits(基于纳米线的混合集成光子电路)

报告人 (Speaker):高俊 研究员(Royal Institute of Technology)

报告时间 (Time):2025年7月3日(周四)10:30-12:00

报告地点 (Place):校本部 G601

邀请人(Inviter):钟建新

主办部门:量子科技研究院/8455新葡萄场网站物理系

报告摘要:

Quantum computing has emerged as a transformative paradigm, offering exponential speedup for a range of complex computational challenges. Photonic systems, with their high coherence, low noise, and rapid processing speeds, are well-suited for implementing quantum information processing tasks. In this talk, I will briefly introduce the hybrid quantum integrated photonic circuits developed in our group with special focus on nanowire quantum emitters. The hybrid integration approach provides means of miniaturization to efficiently integrate all elementary building blocks and presents new methodologies specifically for an all-on-chip scheme on a photonic platform. I will also discuss our recent progress in programmable photonic circuits on the silicon photonics platform, as well as progress on a solid-state, Rydberg-exciton-based quantum simulator.



下一条:数学学科Seminar第2883讲 玻尔兹曼方程mild解的解析半径及Gevrey正则性