个人简历

教育经历 2002—2007年，南开大学，凝聚态物理专业，理学博士。 1998—2002年，南开大学，应用光学和经济学专业，理学和经济学学士； 工作经历 2017-今，南开大学物理科学学院，副院长 2015-今，南开大学泰达应用物理研究院，教授 2013-2014年，美国圣路易斯华盛顿大学，访问学者 2009-2015年，南开大学泰达应用物理学院，副教授 2007-2009年，南开大学泰达应用物理学院，讲师

研究领域

[3] 利用激光脉冲沉积技术在二氧化硅盘形微腔上镀铌酸锂薄膜的办法，我们在无需后处理的情况下成功实现了1e5品质因子铌酸锂/二氧化硅复合微盘腔的制备(Adv. Mater. 27, 8075 (2015))，该工作提出了一种全新的从下到上的铌酸锂微腔制备方案。[2] 在国际上首次实现了1e6以上品质因子的位于晶片上的铌酸锂微盘腔的批量制备，利用电光效应实现了微腔共振波长的主动调控(Opt. Express 23, 23072 (2015))；系统研究了单晶铌酸锂微盘腔内的热光效应，观察并解释了强光泵浦情况下，微腔透射谱的振荡效应(Opt. Express, 24, 21869 (2016))。 [1] 采用与半导体加工工艺兼容的微纳加工技术，在位于硅片上的二氧化硅薄膜上制备出了一种具有新的外形结构的光学微腔——反楔形二氧化硅微腔，微腔的品质因子超过1e6，该微腔可以实现稳定高效的耦合(Opt.Lett. 39, 1841 (2014))。可以作为基底制备复合微腔

近期论文

[40] P. Chang, X. Li, L. Huang, F. Gao*, W. Zhang, F. Bo, G. Zhang and J. Xu*, Fast light in the generation configuration of stimulated Brillouin scattering based on high-Q micro-cavities, Opt. Express, 26(12), 15377-15383 (2018). [39] L. Wang, C. Wang, J. Wang, F. Bo*, M. Zhang, Q. Gong, M. Loncar*, Y. Xiao*, High-Q chaotic lithium niobate microdisk cavity, Opt. Lett., 43(12), 2917-2920 (2018). [38] W. Mao, W. Deng, F. Bo*, F. Gao, G. Zhang*, J. Xu*, Upper Temperature Limit and Multi-channel Effects in Spherical Lithium-niobate Optical Parametric Oscillators, Opt. Express, 26(12), 15268-15275 (2018). [37] Z. Hao, L. Zhang, A. Gao, W. Mao, X. Lyu, F. Bo*, F. Gao, G. Zhang*, J. Xu*, Periodically poled lithium niobate whispering gallery mode microcavities on a chip, Sci. China-Phys. Mech. Astron., 61, 114211 (2018) [36] Z. Hao, J. Wang, S. Ma, W. Mao, F. Bo*, F. Gao, G. Zhang, and J. Xu, Sum-frequency generation in on-chip lithium niobate microdisk resonators, Photonics Res. 5, 623-628 (2017). [35] X. Wang, B. Zhu, Y. Dong, S. Wang, Z. Zhu, F. Bo, and X. Li*, Generation of equilateral-polygon-like flat-top focus by tightly focusing radially polarized beams superposed with off-axis vortex arrays, Opt. Express 25, 26844-26852 (2017). [34] F. Bo*, Ş. K. Özdemir*, F. Monifi, J. Zhang, G. Zhang, J. Xu, and L. Yang*, Controllable oscillatory lateral coupling in a waveguide-microdisk-resonatorsystem, Sci. Rep. 7, 8045 (2017). [33] Y. Sun, F. Song, C. Qian, K. Peng, S. Sun, Y. Zhao, Z. Bai, J. Tang, S. Wu, H. Ali, F. Bo, H. Zhong, K. Jin, and X. Xu*, High-Q Microcavity Enhanced Optical Properties of CuInS2/ZnS Colloidal Quantum Dots toward Non-Photodegradation, ACS Photon. 4, 369-377 (2017). [32] X. Gao, X., J. Li*, Z. Hao, F. Bo*, C. Hu, J. Wang, Z. Liu, Z.-Y. Li, G. Zhang and J. Xu, Vertical microgoblet resonator with high sensitivity fabricated by direct laser writing on a Si substrate. J. Appl. Phys. 121(6), 064502 (2017). [31] J. Wang, B. Zhu, Z. Hao, F. Bo*, X. Wang*, F. Gao, Y. Li, G. Zhang*, and J. Xu, Thermo-optic effects in on-chip lithium niobate microdisk resonators. Opt. Express 24(19), 21869-21879 (2016). [30] F. Monifi, J. Zhang*, Ş. K. Özdemir*, B. Peng, Y.-x. Liu, F. Bo, F. Nori, and L. Yang*, Optomechanically induced stochastic resonance and chaos transfer between optical fields, Nat. Photon. 10, 399-405 (2016). [29] L. Huang, J. Wang, W. Peng, W. Zhang, F. Bo, X. Yu, F. Gao*, P. Chang, X. Song, G. Zhang, and J. Xu, Mode conversion in a tapered fiber via a whispering gallery mode resonator and its application as add/drop filter, Opt. Lett. 41, 638-641 (2016). [28] L. Huang, X. Song, P. Chang, W. Peng, W. Zhang, F. Gao*, F. Bo, G. Zhang, and J. Xu, All-fiber tunable laser based on an acousto-optic tunable filter and a tapered fiber, Opt. Express 24, 7449-7455 (2016). [27] L. Huang, P. Chang, X. Song, W. Peng, W. Zhang, F. Gao*, F. Bo, G. Zhang, and J. Xu, Tunable in-fiber Mach-Zehnder interferometer driven by unique acoustic transducer and its application in tunable multi-wavelength laser, Opt. Express 24, 2406-2412 (2016). [26] F. Bo, J. Wang, J. Cui, S. K. Ozdemir*, Y. Kong, G. Zhang*, J. Xu, and L. Yang*, Lithium-Niobate–Silica Hybrid Whispering-Gallery-Mode Resonators, Adv. Mater. 27, 8075-8081 (2015). [25] F. Bo*, Ş. K. Özdemir*, B. Peng, J. Wang, G. Zhang, J. Xu, and L. Yang*, Vertically coupled microresonators and oscillatory mode splitting in photonic molecules, Opt. Express 23, 30793-30800 (2015). [24] F. Bo*, X. Wang, Y. Li, F. Gao, G. Zhang*, and J. Xu, Mode characteristics of silver-coated inverted-wedge silica microdisks, Sci. China-Phys. Mech. Astron. 58, 1-5 (2015). [23] L. Xu, Y. Dou, F. Bo, J. Xu, and G. Zhang*, Two-photon correlation and photon transport in disordered passive parity-time-symmetric lattices, Phys. Rev. A 91, 023817 (2015). [22] J. Wang, F. Bo*, S. Wan, W. Li, F. Gao, J. Li, G. Zhang, and J. Xu, High-Q lithium niobate microdisk resonators on a chip for efficient electro-optic modulation, Opt. Express 23, 23072-23078 (2015). [21] L. Huang, W. Peng, F. Gao*, F. Bo, G. Zhang, and J. Xu, Mutually modulated cross-gain modulation with a considerable modulation wave number-interaction length product, Opt. Express 23, 12004-12012(2015).