Research on Low Loss Single-mode Polymer Waveguides for Optical Backplane Applications

ZHUANG Yudi; SHI Ying; TANG Ningfeng; WEI Xiaoqiang; HE Zuyuan

doi:10.16818/j.issn1001-5868.2022052402

Semiconductor Optoelectronics, Volume. 43, Issue 6, 1142(2022)

Research on Low Loss Single-mode Polymer Waveguides for Optical Backplane Applications

ZHUANG Yudi1... SHI Ying1, TANG Ningfeng2,3, WEI Xiaoqiang2 and HE Zuyuan1 |Show fewer author(s)

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References(14)

[1] [1] Yoo S B. The role of photonics in future computing and data centers［J］. IEICE Trans. Commun., 2014, 97(7): 1272-1280.

[2] [2] Kyriakis-Bitzaros E D, Haralabidis N, Lagadas M, et al. Realistic end-to-end simulation of the optoelectronic links and comparison with the electrical interconnections for system-on-chip applications［J］. J. Lightwave Technol., 2001, 19(10): 1532-1542.

[5] [5] Xu X, Ma L, Immonen M P, et al. Practical evaluation of polymer waveguides for high-speed and meter-scale on-board optical interconnects［J］. J. Lightwave Technol., 2018, 36(16): 3486-3493.

[6] [6] Immonen M P, Wu J, Yan H J, et al. Single-mode polymer waveguide PCBs for on-board chip-to-chip interconnects［C］// SPIE OPTO, 2017: 101090K.

[7] [7] Kobayashi J, Matsuura T, Sasaki S, et al. Single-mode optical waveguides fabricated from fluorinated polyimides［J］. Appl. Opt., 1998, 37(6): 1032-1037.

[8] [8] Takenobu S, Kuwana Y, Takayama K, et al. All-polymer 8×8 AWG wavelength router using ultra low loss polymer optical waveguide material (CYTOPTM)［C］// Optical Fiber Communications Conf. (OFC), Optical Society of America, 2008: JWA32.

[9] [9] Kim E, Cho S Y, Yeu D M, et al. Low optical loss perfluorinated methacrylates for a single-mode polymer waveguide［J］. Chem. Mater., 2005, 17(5): 962-966.

[10] [10] Yoshimura R, Hikita M, Tomaru S, et al. Low-loss polymeric optical waveguides fabricated with deuterated polyfluoromethacrylate［J］. J. Lightwave Technol., 1998, 16(6): 1030-1037.

[11] [11] Zuo H, Yu S, Gu T, et al. Low loss, flexible single-mode polymer photonics［J］. Opt. Express, 2019, 27(8): 11152-11159.

[12] [12] Mori T, Moriya K, Kitazoe K, et al. Polymer optical waveguide having unique refractive index profiles for ultra high-density interconnection［C］// 2012 Optical Fiber Communications Conf. and Exhibition (OFC), Optical Society of America, 2012: 1-3.

[13] [13] Xu X, Ma L, Jiang S L, et al. Circular-core single-mode polymer waveguide for high-density and high-speed optical interconnects application at 1550nm［J］. Opt. Express, 2017, 25(21): 25689-25696.

[14] [14] Poulton C G, Koos C, Fujii M, et al. Radiation modes and roughness loss in high index-contrast waveguides［J］. IEEE J. Sel. Top. Quant., 2006, 12(6): 1306-1321.

[15] [15] Lee K K, Lim D R, Luan H C, et al. Effect of size and roughness on light transmission in a Si/SiO2 waveguide: experiments and model［J］. Appl. Phys. Lett., 2000, 77(11): 1617-1619.

[16] [16] Marcuse D. Theory of Optical Dielectric Waveguides［M］. 2nd Edition, 1991: 113-133.

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ZHUANG Yudi, SHI Ying, TANG Ningfeng, WEI Xiaoqiang, HE Zuyuan. Research on Low Loss Single-mode Polymer Waveguides for Optical Backplane Applications[J]. Semiconductor Optoelectronics, 2022, 43(6): 1142

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Paper Information

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Received: May. 24, 2022

Accepted: --

Published Online: Jan. 27, 2023

The Author Email:

DOI:10.16818/j.issn1001-5868.2022052402

Topics

laser devices and laser physics

Lasers and Laser Optics

Laser physics

laser manufacturing

Instrumentation, Measurement and Metrology

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