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[1] S. Hua, J. Wen, X. Jiang*, Q. Hua, L. Jiang, and M. Xiao, “Demonstration of a Chip-based Optical Isolator with Parametric Amplification,” Nature Communications 7, 13657 (2016). [2] L. Chang, X. Jiang*, S. Hua, C. Yang, J. Wen, L. Jiang, G. Li, G. Wang and M. Xiao, “Parity-time symmetry and variable optical isolation in active-passive-coupled microresonators,” Nature Photonics 8 524 (2014). [3] C. Yang, X. Jiang*, Q. Hua, S. Hua, Y. Chen, J. Ma, and M. Xiao, “Realization of controllable photonic molecule based on three ultrahigh-Q microtoroid cavities,” Laser Photonics Rev. 11, 1600178 (2017). (Front Cover) [4] C. Yang,Y. Hu, X. Jiang*, and M. Xiao, “Analysis of a triple-cavity photonic molecule based on coupled-mode theory,” Phys. Rev. A 95, 033847 (2017). [5] G. Wang, M. Zhao, Y. Qin, Z. Yin, X. Jiang*, and M. Xiao, “Demonstration of an ultra-low-threshold phonon laser with coupled microtoroid resonators in vacuum,” Photon. Res. 5, 73 (2017). (Cover) [6] G. Li, X. Jiang*, S. Hua, Y. Qin, and M. Xiao, “Optomechanically tuned electromagnetically induced transparency-like effect in coupled optical microcavities,” Appl. Phys. Lett. 109, 261106 (2016). [7] X. Jiang* , C. Yang, H. Wu, S. Hua, L. Chang, Y. Ding, Q. Hua, and M. Xiao, “On-chip optical nonreciprocity using an active microcavity,” Sci. Rep. 6, 38972 (2016). [8] G. Li, P. Liu, X. Jiang*, C. Yang, J. Ma, H. Wu, and M. Xiao, “High-Q silica microdisk optical resonators with large wedge angles on a silicon chip,” Photon. Res. 3, 279 (2015). [9] H. Fan, X. Jiang*, Y. Ding, and M. Xiao, “Demonstration of ultralow-threshold 2 micrometer microlasers on chip,” Sci. China-Phys. Mech. Astron. 58, 114204 (2015). (Special Issue on Microcavity Photonics). (Cover) [10] B. Zheng, M. Zhao, Q. Guo, Y. Yu, S. Lu, X. Jiang*, and S. Zhou, “A chip-based microcavity derived from multi-component tellurite glass,” J. Mater. Chem. C 3, 5141 (2015). [11] G. Wang, M. Zhao, J. Ma, G. Li, Y. Chen, X. Jiang*, M. Xiao, “Radiation-pressure-driven mechanical oscillations in silica microdisk resonators on chip,” Sci. China-Phys. Mech. Astron. 58, 050307 (2015). (Special Issue on Optomechanics). [12] H. Fan, S. Hua, X. Jiang*, and Min Xiao, “Demonstration of an erbium-doped microsphere laser on a silicon chip,” Laser Phys. Lett. 10, 105809 (2013). [13] G. Wang, X. Jiang*, M. Zhao, Y. Ma, H. Fan, Q. Yang, L. Tong, and M. Xiao, “Microlaser based on a hybrid structure of a semiconductor and a silica microdisk cavity,” Opt. Express 20, 29472 (2012). [14] C. Zheng, X. Jiang*, S. Hua, L. Chang, G. Li, H. Fan, and M. Xiao, “Controllable optical analog to electromagnetically induced transparency in coupled high-Q microtoroid cavities,” Opt. Express 20, 18319 (2012). [15] X. Jiang , Q. Lin, J. Rosenberg, K. J. Vahala, and O. Painter, “High-Q double-disk microcavities for cavity optomechanics,” Opt. Express 17, 20911(2009). [16] Q. Lin, J. Rosenberg, X. Jiang, K. J. Vahala, and O. Painter, “Mechanical osciallation and cooling actuated by the optical gradient force,” Phys. Rev. Lett. 103, 103601 (2009). [17] X. Jiang , Y. Chen, G. Vienne, and L. Tong, “All-fiber add-drop filters based on microfiber knot resonators,” Opt. Lett.32, 1710 (2007). [18] X. Jiang , Q. Song, L. Xu, J. Fu, and L. Tong, “Microfiber knot dye laser based on the evanescent-wave-coupled gain,” Appl. Phys. Lett.90, 233501 (2007). [19] X. Jiang , Q. Yang, G. Vienne, Y. Li, L. Tong, J. Zhang, L. Hu, “Demonstration of microfiber knot laser,” Appl. Phys. Lett. 89, 143513 (2006). [20] X. Jiang , L. Tong, G. Vienne, X. Guo, Q. Yang, A. Tsao, and D. Yang, “Demonstration of optical microfiber knot resonators,” Appl. Phys. Lett. 88, 223501 (2006).
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