• / 邹毅 助理教授、研究员
    邮箱: zouyi@@shanghaitech.edu.cn
    电话:(021) 20685361
    办公室: 信息学院2-202E室
    专业方向: 电子科学与技术
邹毅 助理教授、研究员

电 话:(021) 20685361
Email :zouyi@@shanghaitech.edu.cn
办公室:信息学院2-202E室
个人主页:
专业方向: 电子科学与技术


研究领域

  • 集成光子学

  • 微纳光学

  • 光纤光学

  • 光互联

  • 光学智能芯片


个人简历

邹毅,助理教授,研究员,2014年毕业于美国德克萨斯大学奥斯汀分校电气与计算机工程系,获博士学位。随后在美国德克萨斯大学奥斯汀分校从事博士后研究。2015年7月至2017年7月,于南京大学现代工程与应用科学学院量子电子学与光学工程系任副研究员。2017年7月加入上海科技大学信息科学与技术学院。邹毅博士至今已发表学术论文70余篇,为20多个著名国际期刊和欧洲地区自然科学基金项目担任评审工作。


代表性论文

1.Zou, Y., Chakravarty, S., Chung, C. J., Xu, X., and Chen, R. T. (2018). Mid-infrared silicon photonic waveguides and devices. Photonics Research, 6(4), 254-276.

2.Huang, J., Han, H., Liu, A., Wang, H., Liu, X., Zou, Y., ... & Chen, Y. (2017). Efficient second harmonic generation by mode phase matching in a silicon waveguide. IEEE Photonics Journal, 9(3), 1-7.

3.Zhu, X. Y., Xu, Y. L., Zou, Y., Sun, X. C., He, C., Lu, M. H., ... & Chen, Y. F. (2016). Asymmetric diffraction based on a passive parity-time grating. Applied Physics Letters, 109(11), 111101.

4.Zou, Y., Chakravarty, S., & Chen, R. T. (2015). Mid-infrared silicon-on-sapphire waveguide coupled photonic crystal microcavities. Applied Physics Letters, 107(8), 081109.

5.Zou, Y., Chakravarty, S., Wray, P., & Chen, R. T. (2015). Experimental demonstration of propagation characteristics of mid-infrared photonic crystal waveguides in silicon-on-sapphire. Optics express, 23(5), 6965-6975.

6.Zou, Y., Chakravarty, S., Wray, P., & Chen, R. T. (2015). Mid-infrared holey and slotted photonic crystal waveguides in silicon-on-sapphire for chemical warfare simulant detection. Sensors and Actuators B: Chemical, 221, 1094-1103.

7.Zou, Y., Subbaraman, H., Chakravarty, S., Xu, X., Hosseini, A., Lai, W. C., ... & Chen, R. T. (2014). Grating-coupled silicon-on-sapphire integrated slot waveguides operating at mid-infrared wavelengths. Optics letters, 39(10), 3070-3073.

8.Zou, Y., Chakravarty, S., Zhu, L., & Chen, R. T. (2014). The role of group index engineering in series-connected photonic crystal microcavities for high density sensor microarrays. Applied physics letters, 104(14), 141103.

9.Zou, Y., Chakravarty, S., Kwong, D. N., Lai, W. C., Xu, X., Lin, X., ... & Chen, R. T. (2014). Cavity-waveguide coupling engineered high sensitivity silicon photonic crystal microcavity biosensors with high yield. IEEE Journal of Selected Topics in Quantum Electronics, 20(4), 171-180.

10.Chakravarty, S., Zou, Y., Lai, W. C., & Chen, R. T. (2012). Slow light engineering for high Q high sensitivity photonic crystal microcavity biosensors in silicon. Biosensors and Bioelectronics, 38(1), 170-176.

11.Zou, Y., Chakravarty, S., Lai, W. C., Lin, C. Y., & Chen, R. T. (2012). Methods to array photonic crystal microcavities for high throughput high sensitivity biosensing on a silicon-chip based platform. Lab on a Chip, 12(13), 2309-2312.

12.Zou, Y., Dong, X., Lin, G., & Adhami, R. (2012). Wide range FBG displacement sensor based on twin-core fiber filter. Journal of Lightwave Technology, 30(3), 337-343.