周笑艳，英才副教授，特聘研究员。于天津大学获得学士和博士学位，曾于丹麦哥本哈根大学的尼尔森‧玻尔研究所任职博士后研究员（合作导师：Peter Lodahl）和助理教授。研究方向包括量子光子芯片、智能集成光计算、微纳光机电系统（M/NOEMS）、硅基混合集成器件等。她在包括Nature Nanotechnology，Science Advances，Optica，Laser and Photonics Reviews，Photonics Research，Photonics Insights等知名期刊上发表多篇高水平期刊和会议论文，h-index 16，论文引用>1000次。

她作为项目负责人主持jgkjw人才+项目一项，科技部重点研发项目子课题一项，国家自然科学基金青年项目一项。她是中国激光杂志社青年编委、美国光学学会会员、Photonics Insights期刊青年编委、Frontier in Photonics 期刊助理编辑；她还是Light: Science & Applications、ACS Photonics、Optics Letters、IEEE Journal of Lightwave Technology等国际知名光学期刊审稿人。

论文完整列表请见：https://scholar.google.dk/citations?user=7lX6fEIAAAAJ&hl=en

• 混合集成硅基放大器、激光器
• 微纳光机电系统
• 智能集成光计算
• 量子光子芯片
  
  
  

• 入选天津市有关项目（青年）
• 天津市“项目+团队”重点培养专项团队成员
• 2022年 天津大学本科生毕业设计（论文）优秀指导老师
• 2015年 天津大学建校120周年北洋英才奖
• 2015年 中国仪器仪表学会奖学金“一等奖”
• 2015年 博士研究生国家奖学金
• 2014年 天津大学宝钢教育优秀学生奖学金
• 2013年 博士研究生国家奖学金
• 2013-2014年 天津大学三好学生标兵（研）
• 2013年 天津大优博基金提名奖
• 2011年 天津大学优秀毕业生

• X. Zhou*, L. Zhai*, and J. Liu, “Epitaxial quantum dots: a semiconductor launchpad for photonic quantum technologies.” Photonics Insights, 1(2), p.R07 (2023).
• Z. Ma, X. Zhou*, L. Zhang*, "Phase regimes of parity-time-symmetric coupled-ring systems at exceptional points," Photon. Res. 10, 2374 (2022)
• X. Du, Y. Zhai, L. Midolo, L. Zhang*, and X. Zhou*, “Widely Tunable Single-Photon Frequency Conversion in a Nanomechanically Reconfigurable Si-Rich Nitride Waveguide,” J. Lightwave Technol. 40(23), 7640-7647 (2022).
• B. Da Lio, C. Faurby, X. Zhou, M.L. Chan, R. Uppu, H. Thyrrestrup, S. Scholz, A. D. Wieck, A. Ludwig, P. Lodahl, and L. Midolo, A Pure and Indistinguishable Single-Photon Source at Telecommunication Wavelength. Advanced Quantum Technologies, 5(5), p.2200006 (2022)
• X. Zhou*, P. Lodahl, L. Midolo*, “In-plane resonant excitation of quantum dots in a dual-mode photonic-crystal waveguide with high β-factor,” Quantum Sci. Technol. 7, 025023 (2022)
• X. Chang, H. Zhang, Z. Ma, X. Zhou*, and L. Zhang*, "Mid-infrared Ge-based thermo-optic phase shifters with an improved figure of merit," Opt. Mater. Express 12, 1055-1064 (2022)
• R. Uppu, L. Midolo, X. Zhou, J. Carolan, P. Lodahl*, “Single-photon quantum hardware: towards scalable photonic quantum technology with a quantum advantage,” arXiv:2103.01110 (2021) (accepted by Nature Nanotechnology).
• Y. Wang, R. Uppu, X. Zhou, C. Papon, S. Scholz, A. D. Wieck, A. Ludwig, P. Lodahl, and L. Midolo*, "Electroabsorption in gated GaAs nanophotonic waveguides," Applied Physics Letters 118, 131106 (2021)
• Y. Guo, Y. Guo, C. Li, H. Zhang, X. Zhou, L. Zhang*. “Integrated Optical Phased Arrays for Beam Forming and Steering,” Applied Sciences. 2021; 11(9):4017.
• X. Zhou*, R. Uppu, Z. Liu, C. Papon, R. Schott, A. D. Wieck, A. Ludwig, P. Lodahl, and L. Midolo*, “On-chip nanomechanical filtering of quantum-dot single-photon sources.” Laser & Photonics Reviews 14, 1900404 (2020).
• C. Papon (equal contribution), X. Zhou (equal contribution), H. Thyrrestrup, Z. Liu, S. Stobbe, R. Schott, A. D Wieck, A. Ludwig, P. Lodahl, and L. Midolo*, “Nanomechanical single-photon routing,” Optica 6, 524-530 (2019).
• D. Ding, M. H. Appel, A. Javadi, X. Zhou, M. C. Löbl, I. Söllner, R. Schott, C. Papon, T. Pregnolato, L. Midolo, A. D. Wieck, A. Ludwig, R. J. Warburton, T. Schröder, and P. Lodahl*, “Coherent optical control of a quantum-dot spin-qubit in a waveguide-based spin-photon interface,” Physical Review Applied 11, 031002 (2019).
• X. Zhou*, I. Kulkova, T. Lund-Hansen, S. L. Hansen, P. Lodahl, and L. Midolo, “High-efficiency shallow-etched grating on GaAs membranes for quantum photonic applications,” Applied Physics Letters, 113(25), 251103 (2018).
• C. L. Dreeßen, C. Oullet-Plamondon, P. Tighineanu, X. Zhou, L. Midolo, A. S. Sørensen, and P. Lodahl*, “Suppressing phonon decoherence of high performance single-photon sources in nanophotonic waveguides,” Quantum Science and Technology 4(1), 015003 (2018).
• M. Yang, L. Xu, J. Wang, H. Liu, X. Zhou*, G. Li, and L. Zhang*, “An Octave-Spanning Optical Parametric Amplifier Based on a Low-Dispersion Silicon-Rich Nitride Waveguide,” IEEE Journal of Selected Topics on Quantum Electronics 24(6), 1-7 (2018).
• X. Zhou, L. Zhang*, and W. Pang, “Performance and noise analysis of optical microresonator-based biochemical sensors using intensity detection,” Optical Express 24, 18197-18208 (2016).
• X. Zhou, L. Zhang*, J. Liu, X. Duan, A. M Armani, D. Zhang, H. Zhang, and W. Pang, “Integrated photonic gas sensor enhanced by optimized Fano effects in coupled microring resonators with an athermal waveguide,” Journal of Lightwave Technology 33, 4521 (2015).
• H. Zhang, J. Liang, X. Zhou, H. Zhang, D. Zhang, and W. Pang*, “Transverse Mode Spurious Resonance Suppression in Lamb Wave MEMS Resonators: Theory, Modeling, and Experiment”, IEEE Transactions on Electron Devices 62, 3034 (2015).
• X. Zhou, L. Zhang*, A. M. Armani, D. Zhang, X. Duan, J. Liu, H. Zhang, and W. Pang, “On-chip biological and chemical sensing with reversed Fano lineshape enabled by embedded microring resonators,” IEEE Journal of Selected Topics on Quantum Electronics 20, 5200110 (2014).
• X. Zhou, L. Zhang*, W. Pang, H. Zhang, Q. Yang, and D. Zhang, “Phase characteristics of electromagnetically induced transparency analogue in coupled resonant systems,” New Journal of Physics 15, 103033 (2013).
• X. Zhou, L. Zhang*, A. M. Armani, R. G. Beausoleil, A. E. Willner, and W. Pang, "Power enhancement and phase regimes in embedded microring resonators in analogy with electromagnetically induced transparency," Optical Express 21, 20179-20186 (2013).