2009-2013 德国埃尔朗根-纽伦堡大学 机械工程专业 博士
2007-2009 德国埃尔朗根-纽伦堡大学 机械工程专业 硕士
2000-2004 山东大学 电子科学与技术专业 学士

2014-2016 英国剑桥大学 博士后
2013-2014 德国埃尔朗根-纽伦堡大学 博士后

2014 英国牛津大学
2012 美国Sandia国家实验室
2011 美国Sandia国家实验室
2010 美国Sandia国家实验室

技术：
- 激光精细成像 （100kHz PLIF、PIV、LII、瑞利等）
- 非线性光谱（皮秒CARS、拉曼等）

应用：
- 极端条件下的点熄火特性研究
- 低排放燃烧组织及污染物生成机理研究
- 湍流燃烧和燃烧不稳定性
- 雾化蒸发与喷雾燃烧

课程名称：设计与制造I 授课对象：本科生 学时数：64 学分：4
课程名称：先进激光诊断原理与技术 授课对象：研究生 学时数：48 学分：3

2018-2020 国家自然科学基金青年项目“基于超高重复频率激光的湍流射流火焰中碳烟、温度和流场速度的二维同步测量”，负责人

期刊：
[1] C. Fu, X. Y. Wang, Y. H. Wu, X.Y. Yang, C.X. Hu, and Y. Gao*. 20 kHz PLIF/chemiluminescence measurements for lean blow-off characterization in a diffusion swirl flame with inlet fuel flow rate oscillations, Experiments in Fluids, submitted (2020)
[2] H. D. Zhang, X. Xia*, and Y. Gao*. Instability transition of a jet diffusion flame in quiescent environment, Proceedings of the Combustion Institute, accepted (2020)
[3] X. Xia, C. Fu, Y. Y. Yang, X. Y. Yang, Y. Gao*, and F. Qi*. Vortex formation and frequency tuning of periodically-excited jet diffusion flames, Proceedings of the Combustion Institute, accepted (2020)
[4] Y. Gao*, X. Y. Yang, C. Fu, Z. Q. Li, H. D. Zhang, Y. F. Yang, F. Qi. 10 kHz Simultaneous PIV/PLIF Study of Diffusion Jet Flame Response to Periodic Acoustic Forcing, Applied Optics, 58(10):C112-120 (2019)
[5] X. Y. Yang, C. Fu, G. Q. Wang, Z. Q. Li, T. Y. Li, Y. Gao*. Simultaneous High-speed Imaging of High Temperature Zone and Stereo Velocity Field Measurement in Premixed Swirling Flame at 20 kHz, Applied Optics, 58(10):C121-129 (2019)
[6] C. Fu, X. Y. Yang, Z. Q. Li, H. D. Zhang, Y. F. Yang, Y. Gao*. Experimental investigation on acoustically forced flame with simultaneous high-speed LII and PIV at 20 kHz, Applied Optics, 58(10):C104-111 (2019)
[7] S. Y. Li, X. Y. Yang, C. Fu, T. Y. Li, Y. Gao*. Experimental investigation on near-field breakup characteristics of hybrid-mixed twin-fluid atomizer，Atomization and Sprays，28(10):901–914 (2018)
[8] A. Hayakawa, T. Yamagami, K. Takeuchi, Y. Higuchi, T. Kudo, S. M. Lowe, Y. Gao, S. Hochgreb and H. Kobayashi. Quantitative measurement of temperature in oxygen enriched CH4/O2/N2 premixed flames using Laser Induced Thermal Grating Spectroscopy (LITGS) up to 1.0 MPa, Proceedings of the Combustion Institute, vol.37, p1427 (2018)
[9] B. Tian, Y. Gao, C. Zhang, and S. Hochgreb. Soot measurement in diluted methane diffusion flames by multi-pass extinction and laser-induced incandescence, Combustion and Flame, vol.192, p224 (2018)
[10] B. Tian, C. Zhang, Y. Gao, and S. Hochgreb. Planar 2-colour time-resolved laser-induced incandescence measurements of soot in a diffusion flame, Aerosol Science and Technology, vol.51, p1345 (2017)
[11] L. Fan, Y. Gao, A. Hayakawa and S. Hochgreb. Simultaneous, two‑camera, 2D gas‑phase temperature and velocity measurements by thermographic particle image velocimetry with ZnO tracers, Experiments in Fluids, 58:34 (2017)
[12] B. Tian, Y. Gao, S. Balusamy and S. Hochgreb. High spatial resolution laser cavity extinction and laser induced incandescence in low soot producing flames. Applied Physics B, vol.120, p469 (2015)
[13] S. Balusamy, M. M. Kamal, S. M. Lowe, B. Tian, Y. Gao, S. Hochgreb. Laser diagnostics of pulverized coal combustion in O2/N2 and O2/CO2 conditions: velocity and scalar field measurements. Experiments in Fluids, vol. 56, p108 (2015)
[14] Y. Gao, T. Seeger and A. Leipertz. Development of temperature evaluation of pure Rotational Coherent Anti-Stokes Raman Scattering (RCARS) spectra influenced by spatial averaging effects. Proceedings of the Combustion Institute, vol.35, p3715 (2015)
[15] B. D. Patterson, Y. Gao, T. Seeger and C. J. Kliewer. Split-probe hybrid femtosecond/picosecond rotational CARS for time-domain measurement of S-branch Raman linewidths within a single laser shot. Optics Letters, vol. 38, p4566 (2013)
[16] D. Kilian, S. Engel, B. Borsdorf, Y. Gao, A. F. Koeler, S. Kobler, T. Seeger, S. Will, A. Leipertz and W. Peukert. Spatially resolved flame zone classification of a flame spray nanoparticle synthesis process by combining different optical techniques. Journal of Aerosol Science, vol. 69, p82 (2014)
[17] Y. Gao, A. Bohlin, T. Seeger, P.-E. Bengtsson and C. J. Kliewer. In situ determination of N2 broadening coefficients in flames for rotational CARS thermometry. Proceedings of the Combustion Institute, vol. 34, p3637 (2013)
[18] S. R. Engel, A. F. Koegler, Y. Gao, D. Kilian, M. Voigt, T. Seeger, W. Peukert and A. Leipertz. Gas phase temperature measurements in the liquid and particle regime of a flame spray pyrolysis process using O2-based pure rotational coherent anti-Stokes Raman scattering. Applied Optics, vol. 51, p6063 (2012)
[19] A. Birkigt, K. Michels, J. Theobald, T. Seeger, Y. Gao, M. C. Weikl, M. Wensing and A. Leipertz. Investigation of compression temperature in highly charged spark-ignition engines. International Journal of Engine Research, vol. 12, p282 (2011)
[20] C. J. Kliewer, Y. Gao, T. Seeger, B. D. Patterson, R. L. Farrow and T. B. Settersten. Quantitative one-dimensional imaging using picosecond dual-broadband pure-rotational CARS. Applied Optics, vol. 50, p1770 (2011)
[21] C. J. Kliewer, Y. Gao, T. Seeger, J. Kiefer, B. D. Patterson and T. B. Settersten. Picosecond time-resolved pure-rotational coherent anti-Stokes Raman spectroscopy in sooting flames. Proceedings of the Combustion Institute, vol. 33, p831 (2011)
[22] S. C. Eichmann, Y. Gao, M. C. Weikl, F. Beyrau, T. Seeger and A. Leipertz. Multi-species detection with dual-pump-CARS: possibilities and limitations. Physics Procedia, vol. 5, p703 (2010)
[23] T. Seeger, J. Kiefer, Y. Gao, B. D. Patterson, C. J. Kliewer and T. B. Settersten. Suppression of Raman-resonant interferences in rotational coherent anti-Stokes Raman spectroscopy using time-delayed picosecond probe pulses. Optics Letters, vol. 35, p2040 (2010)
[24] Y. Gao, M. C. Weikl, T. Seeger and A. Leipertz, P. Joubert and J. Bonamy. Evaluation of temperature and concentration in H2-N2 dual pump CARS spectra using the Keilson and Storer three-dimensional model for H2 Q-branch. Journal of Raman Spectroscopy, vol. 40, p781 (2009)

会议：
[1] 夏溪，高怡*，杨晓媛，傅宸，齐飞。Vortex formation of buoyant DME/N2 diffusion flames under periodic acoustic excitations, 2019中国工程热物理学会燃烧学学术年会会议论文，天津，2019年10月24-27日
[2] 李世琰，杨晓媛，傅宸，李天宇，高怡*。预膜式气动雾化喷嘴近场喷雾初次破碎特性的实验研究，2018中国工程热物理学会燃烧学学术年会会议论文，哈尔滨，2018年9月13-16日
[3] 李世琰*，李天宇，刘训臣*，高怡*。An Experimental Investigation on the Effect of Split Injection on Spray-Vortex Interaction of Pressure-Swirl Injector using High-Speed PIV，第14届液体雾化及喷雾系统国际大会 (ICLASS 2018)，美国芝加哥，2018年7月22-26日
[4] 李天宇，李世琰，刘训臣，李玉阳，齐飞，高怡*。 Effect of Liquid Temperature on Spray Characteristics of a Gas-Centered Swirl Coaxial Injector under Various Ambient Pressures，第14届液体雾化及喷雾系统国际大会 (ICLASS 2018)，美国芝加哥，2018年7月22-26日

专著：

1. 高怡* ; 刘训臣; 齐飞; 李世琰; 杨晓媛; 傅宸。(发明专利)“一种用于激光器的光学参量振荡器系统”, 中国, 专利授权号201810134011.7
2. 傅宸；王晓阳；高怡* ; 吴昀辉；齐飞。(发明专利)“一种粒子搅拌器”，专利登记号201911224284.1

美国光学学会 (OSA) 会员
国际燃烧学会 (Combustion Institute) 会员
德国爱尔兰根高等光学研究院 (SAOT) 会员
中国工程热物理学会燃烧学学术年会程序委员会委员 (2018-)
国际燃烧学会Tellers Committee委员 (2018-)
国际燃烧学会Hiroshi Tsuji Early Career Researcher Award评委（2018-）
美国光学学会成像和应用研讨大会 (LACSEA)程序委员会委员 (2019-)

2020 指导本科生毕业设计获得校企合作毕设项目展“最佳展示奖”、“最受欢迎奖”、“优秀指导教师奖”
2020 机械与动力工程学院春季学期青年教师教学竞赛二等奖
2019 机械与动力工程学院优秀班主任
2019 上海交通大学优秀共产党员
2019 指导本科生毕业设计获得第三届校企合作毕设项目展“优秀设计”二等奖
2018 上海交通大学优秀班主任
2018 机械与动力工程学院第二届青年教师教学竞赛三等奖
2018 “贺彭年班”班主任
2010 第33届国际燃烧大会优秀论文奖
2009 Gordon Research Conference Carl Storm International Diversity Fellowship