报告题目：Broadband Optical Achromatic Metalenses

时间: 2018年03月16日（周五） 10:00-11:00am

地点: 电子与光学工程学院学科楼B-223

报告人:南京大学王漱明研究员

主办单位：电子与光学工程学院、微电子学院

报告人简介:

王漱明，男，1981年10月出生，理学博士。现任南京大学现代工程与应用科学学院研究员。主要从事超构表面（Metasurface）设计和成像技术，金属表面等离激元学（Plasmonics）和量子光学。在Nature Nanotechnology, Nature Communications，Physical Review Letters， Nano Letters, Applied Physics Letters，Optics. Express等SCI学术刊物上发表论文50余篇。

代表作：

1.  S. M. Wang, P. C. Wu, V. C. Su, Y. C. Lai, M. K. Chen, H. Y. Kuo, B. H. Chen, Y. H. Chen, T. Huang, J. Wan, R. Lin, C. H. Kuan, T. Li, Z. L. Wang, S. N. Zhu SN, and D. P. Tsai, Broadband achromatic metalens at visible light, Nature Nanotechnology doi: 10.1038/s41565-017-0052-4.

2.  Shuming Wang*, Pin Chieh Wu, Vin-Cent Su, Yi-Chieh Lai, Cheng Hung Chu, Jia-Wern Chen, Shen-Hung Lu, Ji Chen, Beibei Xu, Chieh-Hsiung Kuan, Tao Li, Shining Zhu & Din Ping Tsai, Broadband achromatic optical metasurface devices, Nature Communication 8, 187 (2017).

3.  S. M. Wang*, Q. Q. Cheng, Y. X. Gong, C. Sun, L. Lin, P. Xu, T. Li & S. N. Zhu, A 14×14 μm² footprint polarization-encoded quantum controlled-Not gate based on hybrid waveguide, Nature Communications 7, 11490 (2016).

报告摘要:

Most of information from the outside worldis obtained through our eyes. Various colors make the world distinguishable and our life rich and colorful. To achieve the best imaging and displaying of our colorful world is the ultimate dream of human-being in all ages, which is also the main issue of Optics. Among differentobstacles, the chromatic aberration directly brought from the intrinsic material property and phase accumulation at different wavelengths may be the most severe problem in a full-color optical system. Here, by using the IRU (integrated resonance unit elements) based metasurface, the first perfect achromatic lens at the visible region has been demonstrated, with only wavelength scale thickness that is quite desirable in the integrated Optics and daily life, such as in the cell-phone camera. Compared with the traditional (bulky) achromatic lenses or objectives, our achromatic metalens presents perfect achromatism in a continuous bandwidth rather than the traditional solution only suppressing the chromatic aberration at discrete wavelengths. In metalens field, our resultis also far ahead in competition with other reported works. In comparison tothe ordinary metalens,our broadband achromatic metalens demonstrates high transmission efficiency in visible spectrum without chromatic aberration. The achieved continuous achromatism in visible region enables us to obtaining the first metalens-based full-color imaging.