Yanyi Jiang

Narrow-linewidth ultrastable lasers;

Optical frequency comb;

Optical clock;

Optical frequency transfer through fiber

2019

1. 光学频率合成器的自动化控制研究

   陈学智,姚远,蒋燕义∗,马龙生

光学学报，39（7），0714005 （2019）. 光学频率合成器的自动化控制研究.pdf

2. Towards generation of millihertz-linewidth laser light with E-18 frequency instability via four-wave mixing. 

      L. Jin, C. Hang, Y. Y. Jiang, C. J. Zhu, Z. Zheng, Y. Yao, G. X. Huang, and L. S. Ma

 Appl. Phys. Lett., 114, 051104 (2019). 1.5082660.pdf

3. 亚赫兹线宽稳频激光技术
蒋燕义、毕志毅、马龙生

自然杂志，41（1），1-6（2019）.蒋燕义.pdf

4. Zeeman slowing atoms using the magnetic field from a magneto-optical trap.

 Wen Yan, Yuan Yao, Yuxin Sun, Hoyt W. Chad, Yanyi Jiang, and Longsheng Ma

Chin. Opt. Lett., 17(4), 040201 (2019). col .pdf

2018

1. Laser frequency instability of 2E-16 by stabilizing to 30-cm-long Fabry-Perot cavities at 578 nm. 

      L. Jin, Y. Y. Jiang, Y. Yao, H. F. Yu, Z. Y. Bi & L. S. Ma

Opt. Express, 26(14), 18699-18707 (2018). oe-26-14-18699.pdf

2. 环境温度变化不敏感的光学腔热屏蔽层设计

李雪艳, 蒋燕义, 姚远, 毕志毅, 马龙生

光学学报 38, 0714002 (2018).0714002-reduced size.pdf

      Related reading:

光学学报2018年第7期封面故事：环境温度变化不敏感的光学腔热屏蔽层设计

http://www.opticsjournal.net/Journals/gxxb.htm?action=post&oid=PT180723000062JfMiP

2016

1. 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

2. 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

3. 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

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).

oe-23-4-5134.pdf

2013

1. Optical frequency comb with an absolute linewidth of 0.6 Hz-1.2 Hz over an octave spectrum.

    S. Fang, H. Chen, T. Wang, Y. Jiang, Z. Bi, L. Ma

Appl. Phys. Lett., 102, 231118 (2013).

APL_103_231118.pdf

2. Frequency stabilization of Nd:YAG lasers with a most probable linewidth of 0.6 Hz.

    H. Chen, Y. Jiang, S. Fang, Z. Bi, L. Ma

 J. Opt. Soc. Am B, 30, 1546 (2013).

josab-30-6-1546.pdf

3. Progress and trend of narrow-linewdith lasers.

    H. Chen, Y. Jiang, Z. Bi, L. Ma

Science China:Technological Sciences, 56, 1589 (2013).

SC_56_1589.pdf

2012

1. Narrow Linewidth Lasers: Application to Optical Clocks.

Y. Y. Jiang

Ph.D. Thesis, 2012.

52050602011.pdf

2011

1. Making optical atomic clocks more stable with 10^-16-level laser stabilization.

Y. Y. Jiang, A. D. Ludlow, N. D. Lemke, R. W. Fox, J. A. Sherman, L. S. Ma and C. W. Oates

Nature Photon.,5, 158-161 (2011).

np_5_158.pdf

2. Improving the stability and accuracy of the Yb optical lattice clock.

Y. Y. Jiang, A. D. Ludlow, N. D. Lemke, J. A. Sherman, J. Von Stecher, R. W. Fox, L. S. Ma, A. M. Rey

and C. W. Oates

 FCS, J. Conf. IEEE Int., 1-3 (2011).

FCS J Conf IEEE Int.pdf

3. Generation of ultrastable microwaves via optical frequency division.

      T. M. Fortier, M. S. Kirchner, F. Quinlan, J. Taylor, J. C. Bergquist, T. Rosenband, N. Lemke, A. Ludlow, 

 Y. Jiang, C. W. Oates and S. A. Diddams

Nature Photon.,5, 425-429 (2011).

NPHOTON.2011.121.pdf

4. Ultralow phase noise microwave generation with an Er:fiber-based optical frequency divider.

      F. Quinlan, T. M. Fortier, M. S. Kirchner, J. A. Taylor, M. J. Thorpe, N. Lemke, A. D. Ludlow, Y. Y. Jiang, S. A. Diddams

Opt. Lett.,36, 3260 (2011).

Opt. Lett. 36 3260.pdf

2010

1. Nd:YAG lasers at 1064 nm with 1-Hz linewidth.

Y. Y. Jiang, F. Su, Z. Y. Bi, X. Y. Xu and L. S. Ma

Appl. Phys. B, 98, 61-67 (2010).

APB 2010 98 61-67.pdf

2009

1. Spin-1/2 optical lattice clock.

      N. D. Lemke, A. D. Ludlow, Z. W. Barber, T. M. Fortier, S. A. Diddams, Y. Y. Jiang, S. R. Jefferts, T. P.

Heavner, T. E. Parker and C. W. Oates

Phys. Rev. Lett.,103, 063001 (2009).

Phys. Rev. Lett., 103, 063001.pdf

2. Vibration insensitive optical ring cavity.

J. Miao, Y. Y. Jiang, F. Su, Z. Y. Bi and L. S. Ma

Chin. Phys. B, 18, 2334-2339 (2009).

CPB09.pdf

2008

1. Two-hertz-linewidth Nd:YAG lasers at 1064 nm stabilized to vertically mounted ultra-stable cavities.

Y. Y. Jiang, Z. Y. Bi, X. Y. Xu and L. S. Ma