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    Journals >Acta Optica Sinica >Volume 35 >Issue 7 >Page 705001 > Article
    • Acta Optica Sinica
    • Vol. 35, Issue 7, 705001 (2015)
    An Accurate Method for Measuring Interference Fringe Period in Scanning Beam Interference Lithography System
    [in Chinese]1、2、*, [in Chinese]1, [in Chinese]1, [in Chinese]1, and [in Chinese]1、2
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    DOI: 10.3788/aos201535.0705001 Cite this Article Set citation alerts
    [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese]. An Accurate Method for Measuring Interference Fringe Period in Scanning Beam Interference Lithography System[J]. Acta Optica Sinica, 2015, 35(7): 705001 Copy Citation Text show less
    References

    [1] Paul Thomas Konkola. Design and Analysis of a Scanning Beam Interference Lithography System for Patterning Gratings with Nanometer-Level Distortions[D]. Boston: Massachusetts Institute of Technology, 2003.

    [2] Carl G Chen. Beam Alignment and Image Metrology for Scanning Beam Interference Lithography-Fabricating Gratings with Nanometer Phase Accuracy[D]. Boston: Massachusetts Institute of Technology, 2003.

    [3] Juan Montoya. Toward Nano-accuracy in Scanning Beam Interference Lithography[D]. Boston: Massachusetts Institute of Technology, 2006.

    [4] Yong Zhao. Ultra-High Precision Scanning Beam Interference Lithography and its Application -Spatial Frequency Multiplication [D]. Boston: Massachusetts Institute of Technology, 2008.

    [5] Bin Yu, Wei Jia, Changhe Zhou, et al.. Grating imaging scanning lithography[J]. Chin Opt Lett, 2013, 11(8): 080501.

    [6] Li Fengyou. Study on Technology of Laser Direct Writing Photolithogrophy[D]. Changchun:Changchun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Sciences, 2002.

    [7] J C Montoya, C H Chang, R K Heilmann, et al.. Doppler writing and linewidth control for scanning beam interference lithography[J]. J Vac Sci Technol B, 23(6): 2640-2645.

    [8] Song Ying, Bayanheshig, Qi Xiangdong, et al.. Design of frequency-shift interference fringe locking system in holographic grating exposure[J]. Optics and Precision Engineering, 2014, 22(2): 318-324.

    [9] Ralf K Heilmann, Paul T Konkola, Carl G Chen,et al.. Digital heterodyne interference fringe control system [J]. J Vac Sci Technol B, 19(6): 2342-2346.

    [10] Jiang Shan, Bayanheshig, Song Ying, et al.. Effect of measured interference fringe period error on groove profile of grating masks in scanning beam interference lithography system [J]. Acta Optica Sinica, 2014, 34(4): 0405003.

    [11] Jiang Shan, Bayanheshig, Li Wenhao, et al.. Effect of period setting value on printed phase in scanning beam interference lithography system[J]. Acta Optica Sinica, 2014, 34(9): 0905003.

    [12] Zhou Bingkun, Gao Yizhi, Chen Tirong, et al.. Priciples of Laser[M]. Beijing: National Defense Industry Press, 2009.

    [13] Carl G Chen, Ralf K Heilmann, Paul T Konkola, et al.. A novel sub-microradian beam diagnostic and alignment system[C]. Proceedings of ASPE 16th annual meeting, 2001, 25: 216-219.

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    [1] Lu Yuxian, Qi Xiangdong, Yu Haili, Li Xiaotian, Zhang Shanwen, Jiang Shan, Yin Lu. Precision Analysis of Grating Replicated Mosaic Error Based on the Principle of Fraunhofer[J]. Chinese Journal of Lasers, 2016, 43(5): 508005

    [2] Lu Yuxian, Qi Xiangdong, Mi Xiaotao, Jiang Shan, Yu Haili, Li Xiaotian, Yin Lu. Detection and Calculation of Mosaic Grating Error Based on Wavefront Method[J]. Acta Optica Sinica, 2016, 36(5): 505001

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    [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese]. An Accurate Method for Measuring Interference Fringe Period in Scanning Beam Interference Lithography System[J]. Acta Optica Sinica, 2015, 35(7): 705001
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