Fabrication of Metamaterial Terahertz Devices by Semiconductor Laser Induced and Non-Electrolytic Plating with Copper

Wu Dongwei; Liu Jianjun; Li Huayue; Han Hao; Hong Zhi

doi:10.3788/aos201333.1223002

Acta Optica Sinica, Volume. 33, Issue 12, 1223002(2013)

Fabrication of Metamaterial Terahertz Devices by Semiconductor Laser Induced and Non-Electrolytic Plating with Copper

Wu Dongwei^*, Liu Jianjun, Li Huayue, Han Hao, and Hong Zhi

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References(14)

[1] [1] Bradley Ferguson, Zhang Xicheng. Materials for terahertz science and technology [J]. Nature Materials, 2002, 1(1): 26-33.

[2] [2] J B Pendry, D Schurig, D R Smith. Controlling electromagnetic fields [J]. Science, 2006, 312(5781): 1780-1782.

[3] [3] L Y Deng, J H Teng, L Zhang, et al.. Extremely high extinction ratio terahertz broadband polarizer using bilayer subwavelength metal wire-grid structure [J]. Appl Phys Lett, 2012, 101(1): 011101.

[4] [4] W Withayachumnankul, H Lin, K Serita, et al.. Sub-diffraction thin-film sensing with planar terahertz metamaterials [J]. Opt Express, 2012, 20(3): 3345-3352.

[5] [5] N R Han, Z C Chen, C S Lim, et al.. Broadband multi-layer terahertz metamaterials fabrication and characterization on flexible substrates [J]. Opt Express, 2011, 19(8):6990-6998.

[6] [6] N I Landy, S Sajuyigbe, J J Mock, et al.. A perfect metamaterial absorber [J]. Phys Rev Lett, 2008, 100(20): 207402.

[7] [7] I Yamada, K Takano, M Hangyo, et al.. Terahertz wire-grid polarizers with micrometer-pitch Al gratings [J]. Opt Lett, 2009, 34(3): 274-276.

[8] [8] Wei Cao, Ranjan Singh, Ibraheem A I Al-Naib, et al.. Low-loss ultra-high-Q dark mode plasmonic Fano metamaterials [J]. Opt Lett, 2012, 37(16): 3366-3368.

[9] [9] John S Cetnar, John R Middendorf, Elliott R Brown. Extraordinary optical transmission and extinction in a terahertz wire-grid polarizer [J]. Appl Phys Lett, 2012, 100(23): 231912.

[10] [10] Wang Wentao, Liu Jianjun, Li Xiangjun, et al.. Direct fabrication of terahertz wire-grid polarizer and filter by laser induced and non-electrolytic plating [J]. Acta Optica Sinica, 2012, 32(12): 1231002.

[11] [11] Wang Wentao, Liu Jianjun, Hong Zhi. Terahertz multiband terahertz filter based on three nested closed rings [J]. Acta Optica Sinica, 2013, 33(3): 0323001.

[12] [12] F Miyamaru, S Kuboda, K Taima, et al.. Three-dimensional bulk metamaterials operating in the terahertz range [J]. Appl Phys Lett, 2010, 96(8): 081105.

[13] [13] Chen Dongsheng, Lu Qinghua. Application of polyvinylpyrrolidone/AgNO3 colloid in laser induced patterned electroless copper plating [J]. J Materials Protection, 2010, 43(10): 17-19.

[14] [14] Chen Dongsheng, Lu Qinghua, Zhao Yan. Laser-induced site-selective silver seeding on polyimide for electroless copper plating [J]. Appl Surf Sci, 2006, 253(3): 1573-1580.

CLP Journals

[1] Han Hao, Wu Dongwei, Liu Jianjun, Hong Zhi. A Terahertz Metamaterial Analog of Electromagnetically Induced Transparency[J]. Acta Optica Sinica, 2014, 34(4): 423003

[2] Kang Yongqiang. Properties of Reflectance Phase of One Dimensional Photonic Crystal with Single-Negative Materials[J]. Laser & Optoelectronics Progress, 2015, 52(6): 61606

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Wu Dongwei, Liu Jianjun, Li Huayue, Han Hao, Hong Zhi. Fabrication of Metamaterial Terahertz Devices by Semiconductor Laser Induced and Non-Electrolytic Plating with Copper[J]. Acta Optica Sinica, 2013, 33(12): 1223002

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Paper Information

Category: Optical Devices

Received: Jun. 20, 2013

Accepted: --

Published Online: Dec. 5, 2013

The Author Email: Dongwei Wu (dongwei_wu@163.com)

DOI:10.3788/aos201333.1223002

Topics

laser devices and laser physics

Lasers and Laser Optics

Laser physics

laser manufacturing

Instrumentation, Measurement and Metrology