教育背景 |
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2009.09-2013.06 | 山东大学 工学学士 |
2013.09-2016.03 | 北京理工大学 工学硕士 |
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主要研究方向 |
| 同轴全息存储系统的相位调制编码技术 |
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学术成果 |
| Ke Xu, Yong Huang*, Xiao Lin, Yabin Cheng, Xiaotong Li, Xiaodi Tan, "Unequally spaced four levels phase encoding in holographic data storage," Optical Review, Vol.23, 1004, doi:10.1007/s10043-016-0263-1 (2016). |
| Xiao Lin, Yong Huang*, Yabin Cheng, Jinpeng Liu, Ke Xu, Xiaotong Li, Xiaodi Tan, "Inter-page-crosstalk reduction in holographic data storage system through phase modulation in signal region," Japanese Journal of Applied Physics (JJAP), Volume 55, Number 9S, 09SA07-1-3 (2016). |
| Yong Huang, Xiao Lin, Xiaotong Li, Yabin Cheng, Ke Xu, Guoguo Kang, Hideyoshi Horimai, Xiaodi Tan*, "Study on the diffraction pattern and micro-mirror angle of digital micromirror device (DMD) for collinear holographic data storage system," SPIE Proceedings of Photonics West 2016, No.9771-18 (2016). |
| Ke Xu, Yong Huang, Xiao Lin, Yabin Cheng, Xiaotong Li, Xiaodi Tan, "Phase Encoding based on Unequally Spaced Quanternary Level in Holographic Data Storage," The International Workshop on Holography and its related Technologies (IWH2015), Tu3-4 (2015). |
| Xiao Lin, Yabin Cheng, Xiaotong Li, Ke Xu, An'an Wu, Jinpeng Liu, Yong Huang, and Xiaodi Tan, "A phase modulation method to reduce inter-page-crosstalk in the holographic data storage system," The International Symposium on Optical Memory (ISOM'15), Mo-B-04 (2015). |
| Xiaotong Li, Yong Huang*, Yabin Cheng, Xiao Lin, Guoguo Kang, Xiaodi Tan, "Expanding the laser wavelength margin of collinear holographic storage system," The 14th Workshop on Information Optics (WIO2015). |
| Yabin Cheng, Xiaotong Li, Xiao Lin, Ke Xu, Yong Huang, and Xiaodi Tan, "Phase Modulation of Adjacent Data Pixels for Inter-page Noise Cancellation in Collinear Holographic Storage System," OSA Digital Holography & 3-D Imaging (DH), No. DW2A.24 (2015). |
| Xiaotong Li, Yabin Cheng, Xiao Lin, Guoguo Kang, Xiaodi Tan, "Compensation of laser wavelength drift in collinear holographic storage system," Proc. SPIE (Photonics West) 93860H (2015) doi:10.1117/12.2080421 |
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