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Opto-Electronic Engineering, Volume. 44, Issue 2, 216(2017)

The investigation of focusing characteristic based on double Bowtie nano-lithography structure

Jie Zheng1, Xianchao Liu1,2, Yuerong Huang1, Yunyue Liu1, Weidong Chen1, and Ling Li1、*
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  • 2[in Chinese]
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    [1] [1] Synge E H. A suggested method for extending microscopic resolution into the ultra-microscopic region[J]. The London, Edinburgh, and Dublin Philosophical Magazine and Journal of Science, 1928, 6(35): 356-362.

    [2] [2] Shi Xiaolei, Hesselink Lambertus. Mechanisms for enhancing power throughput from planar nano-apertures for near-field optical data storage[J]. Japanese Journal of Applied Physics, 2002, 41(3B): 1632.

    [3] [3] Tanaka K, Ohkubo T, Oumi M, et al. Simulation of simultaneous tracking/data signal detection using novel aperture-mounted surface recording head[J]. Japanese Journal of Applied Physics, 2002, 41(3B): 1628.

    [4] [4] Tanaka K, Tanaka M. Simulation of an aperture in the thick metallic screen that gives high intensity and small spot size using surface plasmon polariton[J]. Journal of Microscopy, 2003, 210(3): 294-300.

    [5] [5] Sendur K, Challener W. Near-field radiation of bow-tie antennas and apertures at optical frequencies[J]. Journal of Microscopy, 2003, 210(3): 279-283.

    [6] [6] Wang L, Xu X. Spectral resonance of nanoscale bowtie apertures in visible wavelength[J]. Applied Physics A, 2007, 89(2): 293-297.

    [7] [7] Jin Eric Xuan, Xu Xianfan. Finitte-difference time-domain studies on optical transmission through planar nano-apertures in a metal film[J]. Japanese Journal of Applied Physics, 2004, 43(1R): 407-417.

    [8] [8] Jin Eric Xuan, Xu Xianfan. Enhanced optical near field from a bowtie aperture[J]. Applied Physics Letters, 2006, 88(15): 153110- 153116.

    [9] [9] Kim S, Jung H, Kim Y, et al. Resolution limit in plasmonic lithography for practical applications beyond 2x-nm half pitch[J]. Advanced Materials, 2012, 24(44): OP337-OP344.

    [10] [10] Wang Yaohui, Yao Na, Zhang Wei, et al. Forming sub-32-nm high-aspect plasmonic spot via bowtie aperture combined with metal-insulator-metal scheme[J]. Plasmonics, 2015, 10(6): 1607-1613.

    [12] [12] Wang Yaohui, He Jiayu, Wang Changtao, et al. Method investigation of direct-writing nanolithography based on enhanced local surface plasmon resonance[J]. Opto-Electronic Engineering, 2016, 43(1): 71-76.

    [14] [14] Palik E D. Handbook of optical constants of solids[M]. San Diego: Academic Press, 1998.

    [15] [15] Xu T, Fang L, Ma J, et al. Localizing surface plasmons with a metal-cladding superlens for projecting deep-subwavelength patterns[J]. Applied Physics B, 2009, 97(1): 175-179.

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    Jie Zheng, Xianchao Liu, Yuerong Huang, Yunyue Liu, Weidong Chen, Ling Li. The investigation of focusing characteristic based on double Bowtie nano-lithography structure[J]. Opto-Electronic Engineering, 2017, 44(2): 216

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    Paper Information

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    Received: Oct. 5, 2016

    Accepted: --

    Published Online: Mar. 31, 2017

    The Author Email: Li Ling (lingli70@aliyun.com)

    DOI:10.3969/j.issn.1003-501x.2017.02.011.1

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology