基本信息
浏览量:0
职业迁徙
个人简介
Photons can be trapped in optical microresonators with extended lifetime proportional to the resonators' quality (Q) factors. Over the past two decades the Q of microresonators have been progressively improved, with over 100 billion and 1 billion Q achieved respectively in discrete and chip-based devices. These high-Q microresonators are essential photonic engines that are currently driving science and technology towards scalable quantum circuitry, high-speed telecommunication industry and miniaturized coherent optical systems. We are developing high-Q microresonators in a wide-range of material systems, with a focus on integrated silicon photonic platforms.
Central to modern AMO physics is the precise measurement of optical frequencies, or equivalently, the "color" of light. The most accurate rulers of optical frequencies are optical frequency combs (OFCs), a ground-breaking technology which was awarded Nobel Prize in 2005 (John Hall and Theodor Hänsch). An OFC consists of hundreds to thousands of equally-spaced, phase-coherent lasers, which are typically derived from femtosecond mode-locked lasers. While table-top OFCs have been commerically available, the recent realization of optical solitons in high-Q microresonators paves the way towards integrated OFCs, which feature remarkable advantages in size, cost and scalability. Our mission is to create high-performance OFCs in CMOS-compatible photonic platforms, as well as their implementation in cutting-edge applications spanning miniaturized precise metrology systems, microwave photonics and optical interconnects.
The combination of long photon lifetime and compact form factors has made high-Q microresonators an attractive platform in the study of nonlinear optical phenomena, including stimulated Raman and Brillouin scattering, coupling between photons and mechanical oscillators, and optical parametric oscillations. We are investigating these toxic nonlinear physics, especially complex dynamics of optical solitons in microresonators.
Central to modern AMO physics is the precise measurement of optical frequencies, or equivalently, the "color" of light. The most accurate rulers of optical frequencies are optical frequency combs (OFCs), a ground-breaking technology which was awarded Nobel Prize in 2005 (John Hall and Theodor Hänsch). An OFC consists of hundreds to thousands of equally-spaced, phase-coherent lasers, which are typically derived from femtosecond mode-locked lasers. While table-top OFCs have been commerically available, the recent realization of optical solitons in high-Q microresonators paves the way towards integrated OFCs, which feature remarkable advantages in size, cost and scalability. Our mission is to create high-performance OFCs in CMOS-compatible photonic platforms, as well as their implementation in cutting-edge applications spanning miniaturized precise metrology systems, microwave photonics and optical interconnects.
The combination of long photon lifetime and compact form factors has made high-Q microresonators an attractive platform in the study of nonlinear optical phenomena, including stimulated Raman and Brillouin scattering, coupling between photons and mechanical oscillators, and optical parametric oscillations. We are investigating these toxic nonlinear physics, especially complex dynamics of optical solitons in microresonators.
研究兴趣
论文共 69 篇作者统计合作学者相似作者
按年份排序按引用量排序主题筛选期刊级别筛选合作者筛选合作机构筛选
时间
引用量
主题
期刊级别
合作者
合作机构
Nature Photonicspp.1-6, (2024)
Xing Jin, Zhenyu Xie, Xiangpeng Zhang, Hanfei Hou,Fangxing Zhang, Xuanyi Zhang,Lin Chang,Qihuang Gong,Qi-Fan Yang
arxiv(2024)
引用0浏览0引用
0
0
2023 Conference on Lasers and Electro-Optics (CLEO)pp.1-2, (2023)
引用0浏览0EIWOS引用
0
0
Chen Yang, Shuo Yang, Fan Du, Xianhong Zeng,Beichen Wang,Zijiao Yang,Qiang Luo,Rui Ma,Ru Zhang,Di Jia,Zhenzhong Hao,Yongnan Li,
LASER & PHOTONICS REVIEWSno. 9 (2023)
ACTA PHYSICA SINICAno. 23 (2023)
Chenghao Lao, Xing Jin,Lin Chang,Heming Wang, Zhe Lv,Weiqiang Xie,Haowen Shu,Xingjun Wang,John E. Bowers,Qi-Fan Yang
Nature Communicationsno. 1 (2023): 1-8
2023 Conference on Lasers and Electro-Optics (CLEO)pp.1-2, (2023)
引用0浏览0EIWOS引用
0
0
加载更多
作者统计
合作学者
合作机构
D-Core
- 合作者
- 学生
- 导师
数据免责声明
页面数据均来自互联网公开来源、合作出版商和通过AI技术自动分析结果,我们不对页面数据的有效性、准确性、正确性、可靠性、完整性和及时性做出任何承诺和保证。若有疑问,可以通过电子邮件方式联系我们:report@aminer.cn