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http://dx.doi.org/10.3807/COPP.2017.1.5.514

A Study on a Compact Coupler between an Optical Fiber and a Grating-assisted Graphene-embedded Silicon Waveguide for a Wavelength-selective Photodetector  

Heo, Hyungjun (Department of Electrical and Computer Engineering, Ajou University)
Kim, Sangin (Department of Electrical and Computer Engineering, Ajou University)
Publication Information
Current Optics and Photonics / v.1, no.5, 2017 , pp. 514-524 More about this Journal
Abstract
We proposed an integrated wavelength-selective photodetector based on a grating-assisted contradirectional coupler and a graphene absorption layer for a coarse wavelength division multiplexing (CWDM) communication system. The center wavelength of the absorption spectrum of the proposed device can be tuned simply by changing the period of the grating, and the proposed device structure is suitable to forming a cascaded structure. Therefore, an array of the proposed device of different grating periods can be used for simultaneous wavelength demultiplexing and signal detection in a CWDM communication system. Our theoretical study showed that the designed device with a grating length of $500{\mu}m$ could have an absorption of 95.1%, an insertion loss of 0.2 dB, and a 3 dB bandwidth of 7.5 nm, resulting in a -14 dB crosstalk to adjacent CWDM channels. We believe that the proposed device array can provide a compact and economic solution to receiver implementation in the CWDM system by combining functions of wavelength demultiplexing and signal detection.
Keywords
Grating; Directional coupler; Graphene; Coupled-mode theory;
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1 L. Dong, P. Hua, T. A. Birks, L. Reekie, and P. S. J. Russell, "Novel add/drop filters for wavelength-divisionmultiplexing optical fiber systems using a Bragg grating assisted mismatched coupler," IEEE Photon. Technol. Lett. 8(12), 1656-1658 (1996).   DOI
2 C. Riziotis and M. N. Zervas, "Design considerations in optical add/drop multiplexers based on grating-assisted null couplers," J. Lightwave Technol. 19(1), 92-104 (2001).   DOI
3 J. P. Weber, "Spectral characteristics of coupled-waveguide Bragg-reflection tunable optical filter," IEE Proc. Optoelectron. 140(5), 275-284(1993).   DOI
4 R. R. A. Syms, "Improved coupled-mode theory for codirectionally and contra-directionally coupled waveguide arrays," J. Opt. Soc. Am. A 8(7), 1062-1069 (1991).   DOI
5 C. Bulmer and M. Wilson, "Single mode grating coupling between thin-film and fiber optical waveguides," IEEE J. Quantum Electron. 14(10), 741-749(1978).   DOI
6 W. Shi, X. Wang, C. Lin, H. Yun, Y. Liu, T. Baehr-Jones, M. Hochberg, N. A. F. Jeager, and L. Chrostowski, "Silicon photonic grating-assisted, contra-directional couplers," Opt. Express 21(3), 3633-3650(2013).   DOI
7 T. Erdogan, "Optical add-drop multiplexer based on an asymmetric Bragg coupler," Opt. Commun. 157(1), 249-264 (1998).   DOI
8 H. Sakata, "Analysis of wavelength-selective photodetectors based on grating-assisted forward coupling," J. Lightwave Technol. 11(4), 560-566 (1993).   DOI
9 E. Mao, D. R. Yankelevich, C. C. Lin, O. Solgaard, A. Knoesen, and J. S. Harris, "Narrow-band light emission in semiconductor-fibre asymmetric waveguide coupler," Electron. Lett. 36(16), 1378-1379 (2000).   DOI
10 A. Pospischil, M. Humer, M. M. Furchi, D. Bachmann, R. Guider, T. Fromherz, and T. Mueller, "CMOS-compatible graphene photodetector covering all optical communication bands," Nat. Photon. 7(11), 892-896 (2013).   DOI
11 X. Yin, X. Ke, L. Chen, T. Zhang, J. Li, Z. Zhu, and X. Li, "Ultra-broadband TE-pass polarizer using a cascade of multiple few-layer Graphene embedded silicon waveguides," J. Lightwave Technol. 34(13), 3181-3187 (2016).   DOI
12 X. Gan, R. J. Shiue, Y. Gao, I. Meric, T. F. Heinz, K. Shepard, J. Hone, S. Assefa, and D. Englund, "Chip-integrated ultrafast graphene photodetector with high responsivity," Nat. Photon. 7(11), 883-887 (2013).   DOI
13 S. Schuler, D. Schall, D. Neumaier, L. Dobusch, O. Bethge, B. Schwarz, M. Krall, and T. Mueller, "Controlled generation of ap-n junction in a waveguide integrated graphene photodetector," Nano Lett. 16(11), 7107-7112 (2016).   DOI
14 R. J. Shiue, Y. Gao, Y. Wang, C. Peng, A. D. Robertson, D. K. Efetov, S. Assefa, F. H. L. Koppens, J. Hone, and D. Englund, "High-responsivity graphene-boron nitride photodetector and autocorrelator in a silicon photonic integrated circuit," Nano Lett. 15(11), 7288-7293 (2015).   DOI
15 Z. H. Zhu, C. C. Guo, K. Liu, J. F. Zhang, W. M. Ye, X. D. Yuan, and S. Q. Qin, "Electrically controlling the polarizing direction of a graphene polarizer," J. Appl. Phys. 116(10), 104304 (2014).   DOI
16 M. Bruna and S. Borini, "Optical constants of graphene layers in the visible range," Appl. Phys. Lett. 94(3), 031901 (2009).   DOI
17 M. Kim, C. Y. Jung, H. Heo, and S. Kim, "Optical reflection modulation using surface plasmon resonance in a grapheneembedded hybrid plasmonic waveguide at optical communication wavelength," Opt. Lett. 40, 871-874 (2015).   DOI
18 T. Q. Tran, S. Lee, and S. Kim, "Tunable wide-angle tunneling in graphene-assistied frustrated total internal reflection," Sci. Rep. 6, 19975 (2016).   DOI
19 A. Farmani, M. Miri, and M. H. Sheikhi, "Tunable resonant Goos-Hanchen and Imbert-Fedorov shifts in total reflection of terahertz beams from graphene plasmonic metasurfaces," J. Opt. Soc. Am. B 34(6), 1097-1106 (2017).   DOI
20 S. S. Orlov, A. Yariv, and S. V. Essen, "Coupled-mode analysis of fiber-optic add-drop filters for dense wavelengthdivision multiplexing," Opt. Lett. 22(10), 688-690 (1997).   DOI
21 S. Olivier, H. Benisty, C. Weisbuch, C. J. Smith, T. F. Krauss, and R. Houdre, "Coupled-mode theory and propagation losses in photonic crystal waveguides," Opt. Express 11(13), 1490-1496 (2003).   DOI
22 A. Farmani, M. Miri, and M. H. Sheikhi, "Analytical modeling of highly tunable giant lateral shift in total reflection of light beams from a graphene containing structure," Opt. Commun. 391, 68-76(2017).   DOI
23 G. W. Hanson, "Dyadic Green's functions and guided surface waves for a surface conductivity model of graphene," J. Appl. Phys. 103(6), 064302 (2008).   DOI
24 T. Barwicz, M. A. Popovic, P. T. Rakich, M. R. Watts, H. A. Haus, E. P. Ippen, and H. I. Smith, "Microring-resonatorbased add-drop filters in SiN: fabrication and analysis," Opt. Express 12(7), 1437-1442 (2004).   DOI
25 H. S. Chu and C. H. Gan, "Active plasmonic switching at mid-infrared wavelengths with graphene ribbon arrays," Appl. Phys. Lett. 102, 231107 (2013).   DOI
26 C. Casiraghi, A. Hartschuh, E. lidorikis, H. Qian, H. Harutyunyan, T. Gokus, K. S. Novoselov, and A. C. Ferrari, "Rayleigh imaging of graphene and graphene layers," Nano Lett. 7, 2711-2717 (2007).   DOI
27 X. J. Leijtens, B. Kuhlow, and M. K. Smit, "Arrayed waveguide gratings," in Wavelength Filters in Fibre Optics, H. Venghaus, ed. (Springer, NewYork, USA, 2006).
28 T. Numai, "Semiconductor wavelength tunable optical filters," Int. J. Nonlinear Opt. Phys. 2(4), 643-659 (1993).   DOI