[1] CHEN H, CHEN B, HUANG D, et al. Broadband electro-optic polymer modulators with high electro-optic activity and low poling induced optical loss[J]. Applied Physics Letters, 2008, 93(1): 043507.
[2] DONG P, LIAO S, FENG D, et al. Low Vpp, ultralow-energy, compact, high-speed silicon electro-opticmodulator[J].Optics Express,2009, 17(25): 22484-22490.
[3] LIU Jia-lei, XU Guang-ming, LIU Feng-guang, et al. Recent advances in polymer electro-optic modulators[J]. RSC Advances,2015, 5(21): 15784-15794.
[4] GREEN W M, ROOKS M J , SEKARIC L, et al. Ultra-compact, low RF power, 10 Gb/s silicon Mach–Zehndermodulator[J]. Optics Express,2007, 15(25): 17106-17113.
[5] SUN Xiao-qiang, CHEN Chang-ming, LI Xiao-dong, et al. Polymer electro-optic modulator linear bias using the thermo-optic effect[J]. Chinese Physics Letters, 2012, 29(1): 014212.
[6] LAUERMANN M, PALMER R, KOEBER S, et al. Low-power silicon-organic hybrid (SOH) modulators for advancedmodulation formats[J]. Optics Express, 2014, 22(24): 29927.
[7] YUAN Pei, WU Yuan-da, WANG Yue, et al. Monolithic integration of a 16-channel VMUX on SOI platform[J].Journal of Semiconductors,2015, 36(8): 084005.
[8] DAI Hong-qing, AN Jun-ming, WANG Yue, et al. Monolithic integration of a silica-based 16-channel VMUX/VDMUX on quartz substrate [J].Journal of Semiconductors, 2014, 35(10): 104010.
[9] LI Ran, WANG Lei, CHEN Xi, et al. Design of an integrated device of delay line array and thermal optical switch based on polymeric materials[J].Acta Photonica Sinica, 2013, 43(4): 0423002.
[10] ZHANG Zhong-yi, WU Bao-jian, WEN Feng, et al. Research on polarization dependent loss of micro ring resonator based optical switches[J]. Acta Photonica Sinica, 2015, 44(7): 0713002.
[11] QIN Zheng-kun, YU Yue, SONG Jia, et al.Analysis of fabrication results for 17 × 17 polymer arrayed waveguide grating multiplexers with flat spectral responses[J]. Journal of Semiconductors, 2013, 34(9): 094011.
[12] ZHAO Lei, AN Jun-ming,ZHANG Jia-shun, et al. 16 channel 200 GHz arrayed waveguide grating based on Si nanowire waveguides[J].Journal of Semiconductors, 2011, 32(2): 024010.
[13] ZHANG Jia-shun, AN Jun-ming, ZHAO Lei, et al. Ultra compact triplexing filters based on SOI nanowire AWGs[J]. Journal of Semiconductors, 2011, 32(4): 044009.
[14] FOLKER H, WILLIAM M G, SOLOMON A A, et al. Cascaded Mach-Zehnder wavelength filters in silicon photonics forlow loss and flat pass-band WDM (de-) multiplexin [J]. Optics Express, 2013, 21(10): 1652-11658.
[15] ZHU Zhi-xiong, ZENG Xiang-Kai, LIU Quan-shun, et al. Characteristic analysis of single and double micro ring resonant cavity used in Mach-Zahnder interferometer filter[J]. Acta Photonica Sinica, 2015, 44(7): 0713003.
[16] NAJAM M A,WANG Zhi-gong, LI Zhi-qun. An I/Q mixer with an integrated differential quadrature all-pass filter for on-chip quadrature LO signal generation [J].Journal of Semiconductors, 2015, 36(5): 055001.
[17] LAUERMANN M, PALMER R, KOEBER S, et al. Low-power silicon-organic hybrid (SOH) modulators for advanced modulation formats[J]. Optics Express, 2014, 22(24): 29927-29936.
[18] PALMER R, ALLOATTI L, KOM D, et al. Silicon-organic hybrid MZI modulator generating OOK, BPSK and 8-ASK signals for Up to 84 Gbit/s[J]. IEEE Photonics Journal, 2013, 5(2): 6600907.
[19] ZHANG X, YUAN J, WANG K, et al. Strong modulation instability in a silicon-organic hybrid slot waveguide[J]. IEEE Photonics Journal,2015, 7(4): 1-8.
[20] KOOS C, LEUTHOLD J, FREUDE W, et al. Silicon-Organic Hybrid(SOH) and Plasmonic-Organic Hybrid(POH) integration[J].Journal ofLightwave Technology, 2015: 1.
[21] LEUTHOLD J, KOOS C, FREUDE W, et al. Silicon-organic hybrid electro-optical devices [J]. IEEE Journal of Selected Topics in Quantum Electronics, 2013, 19(6): 114-126.
[22] LEUTHOLD J, FREUDE W, BROSI, et al. Silicon organic hybrid technology—a platform for practical nonlinear optics[J]. Proceedings of the IEEE,2009, 97(7): 1304-1306.
[23] LIU Yan, XU Xue-jun, CHEN Shao-wu, et al. Modelling and analysis of modal behaviour in SOI slot waveguides[J].Chinese physics letters,2008, 25(8): 2918-2921.
[24] ZHENG Zheng, MUDDASSIR I,LIU Jian-sheng, et al. Dispersion characteristics of SOI-based slot optical waveguides[J].Optics Communications, 2008, 281(20): 5151-5155.
[25] ALLOATTI L, PALMER R, DIEBOLD S, et al. 100 GHz silicon-organic hybrid modulator[J].Light-science and Applications, 2014, 3(5): 173.
[26] MATTHIAS L, STEFAN W, PHILIPP C S, et al. 40GBd 16QAM signaling at 160 Gb/s in a silicon-organic hybrid modulator[J]. Journal of Lightwave Technology,2015, 33(6): 1210-1216.
[27] ULRICH R, ANKELE G. Self-imaging in homogeneous planar optical waveguides[J]. Applied physics Letters, 1975, 27(6): 337-339.
Foundation item: The General Program of National Natural Science Foundation of China(No.61274047), the Key Program of National Natural Science Foundation of China(No.61435013), the National Natural Science Foundation for Young Scholars of China(Nos.61307034,61205044)