Jiang, Yanyi - 上海纽约大学 - 物理联合研究中心

个人简介

Yanyi Jiang received her B.S. in 2005 and Ph.D degree in 2012 from Department of Physics and State Key Laboratory of Precision Spectroscopy at East China Normal University. In 2008, she spent one and a half year as a visit scholar at National Institute of Standard and Technology (NIST, USA). She joined East China Normal University in 2005, became Associate Professor in 2011 and then Researcher in 2018. Dr. Jiang focuses her research in precision control of optical frequency, optical frequency comb, ultra narrow linewidth laser system, optical atomic clock and fiber based optical frequency transfer.

研究领域

Narrow-linewidth ultrastable lasers Optical frequency comb Optical clock Optical frequency transfer through fiber

近期论文

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2016年 1. Optical frequency divider with division uncertainty at the E−21 level. Y. Yao, Y. Y. Jiang, H. F. Yu, Z. Y. Bi & L. S. Ma Natl. Sci. Rev. (2016). doi:10.1093/nsr/nww062 Natl Sci Rev-2016-Yao-nsr-nww063.pdf Related reading: Converting optical frequencies with 10^(-21) uncertainty. https://www.eurekalert.org/pub_releases/2016-10/scp-cof102116.php 基于光梳的高精度光学分频器的原理和性能测试结果 http://news.sciencenet.cn/html/showpaper.aspx?id=41602 2. A low noise optical frequency synthesizer at 700–990nm. Y. Yao, Y. Y. Jiang, L. F. Wu, H. F. Yu, Z. Y. Bi & L. S. Ma Appl. Phys. Lett., 109,131102 (2016). APPLIED PHYSICS LETTERS 109, 131102 (2016).pdf 3. Coherence transfer of subhertz-linewidth laser light via an optical fiber noise compensated by remote users. L. F. Wu, Y. Y. Jiang, C. Q. Ma, H. F. Yu, Z. Y. Bi & L. S. Ma Opt. Lett., 41, 4368 (2016). ol-41-18-4368.pdf 4. Study on the sensitivity of optical cavity length to light power fluctuation. W. Qi, Y. Y. Jiang, X. Y. Li, L. Jin, Z. Y. Bi & L. S. Ma Chin. Opt. Lett., 14, 101401 (2016). col-14-10-101401.pdf 5. 0.26-Hz-linewidth ultrastable lasers at 1557 nm. L. F. Wu, Y. Y. Jiang, C. Q. Ma, W. Qi, H. F. Yu, Z. Y. Bi & L. S. Ma Sci. Rep., 6, 24969 (2016). SciRep 2016_6_24969.pdf 2015年 1. Coherence transfer of subhertz-linewidth laser light via an 82-km fiber link. C. Q. Ma, L. F. Wu, Y. Y. Jiang, H. F. Yu, Z. Y. Bi & L. S. Ma Appl. Phys. Lett., 107, 261109 (2015). APL_107_261169.pdf 2. Coherence transfer from 1064 nm to 578 nm using an optically referenced frequency comb. S. Fang, Y. Y. Jiang, H. Q. Chen, Y. Yao, Z. Y. Bi & L. S. Ma Chin. Phys. B, 24, 074202 (2015). CPB-2015-074202-143102.pdf 3. Optical coherence transfer over 50-km spooled fiber with frequency instability of 2e-17 at 1 s. C. Q. Ma, L. F. Wu, Y. Y. Jiang, H. F. Yu, Z. Y. Bi & L. S. Ma Chin. Phys. B, 24, 084209 (2015). CPB_2015_084209.pdf 4. Thermal analysis of optical reference cavities for low sensitivity to environmental temperature fluctuations. X. J. Dai, Y. Y. Jiang, C. Hang, Z. Y. Bi & L. S. Ma Opt. Express, 23, 5134 (2015).