2018-11-17 Welcome guest,  Sign In  |  Sign Up
Chin. Opt. Lett.
 Home  List of Issues    Issue 01 , Vol. 11 , 2013    10.3788/COL201311.012501


Development trends in silicon photonics
Zhiping Zhou, Zhijuan Tu, Bing Yin, Wei Tan, Li Yu, Huaxiang Yi, Xingjun Wang
State Key Laboratory of Advanced Optical Communication Systems and Networks, School of Electronics Engineering and Computer Science, [Peking University], Beijing 100871, China

Chin. Opt. Lett., 2013, 11(01): pp.012501

DOI:10.3788/COL201311.012501
Topic:Optoelectronics
Keywords(OCIS Code): 250.5300  130.3120  130.6622  

Abstract
Silicon photonics has become one of the major technologies in this very information age. It has been intensively pursued by researchers and entrepreneurs all over the world in recent years. Achieving the large scale silicon photonic integration, particularly monolithic integration, is the final goal so that high density data communication will become much cheaper, more reliable, and less energy consuming. Comparing with the developed countries, China may need to invest more to develop top down nanoscale integration capability (more on processing technology) to sustain the development in silicon photonics and to elevate its own industry structure.

Copyright: © 2003-2012 . This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

 View PDF (305 KB)

Share:


Received:2012/12/9
Accepted:2012/12/28
Posted online:2013/1/6

Get Citation: Zhiping Zhou, Zhijuan Tu, Bing Yin, Wei Tan, Li Yu, Huaxiang Yi, Xingjun Wang, "Development trends in silicon photonics," Chin. Opt. Lett. 11(01), 012501(2013)

Note: This work was partially supported by the Major International (Regional) Cooperation and Exchange Program of the National Natural Science Foundation of China (No. 61120106012), the National Natural Science Foundation of China (No. 61177058), and the National High Technology Research and Development Program of China (No. 2011AA010302).



References

1. R. Soref and J. Lorenzo, IEEE J. Quantum Electron. 22, 873 (1986).

2. R. A. Soref and B. R. Bennett, in Proceedings of SPIE Integr. Opt. Circuit Eng. 32 (1986).

3. B. Schuppert, J. Schmidtchen, and K. Petermann, Electron. Lett. 25, 1500 (1989).

4. R. A. Soref, J. Schmidtchen, and K. Petermann, IEEE J. Quantum Electron. 27, 1971 (1991).

5. Z. Zhou, Electron. Lett. 45, 588 (2009).

6. H. Krzy˙zanowska, K. S. Ni, Y. Fu, and P. M. Fauchet, Mater. Sci. Eng. B 177, 1547 (2012).

7. Y. Fu, "Light emission and slot waveguide effect in Erdoped SiO2/Si nanocrystalline multilayer structures", PhD. Thesis (University of Rochester, 2012).

8. K. Tanabe, K. Watanabe, and Y. Arakawa, Sci. Rep. 2, 1 (2012).

9. R. E. Camacho-Aguilera, Y. Cai, N. Patel, J. T. Bessette, M. Romagnoli, L. C. Kimerling, and J. Michel, Opt. Express 20, 11316 (2012).

10. B. Dutt, D. S. Sukhdeo, D. Nam, B. M. Vulovic, Z. Yuan, and K. C. Saraswat, IEEE Photon. J. 4, 2002 (2012).

11. R. Ma, X. Yin, R. F. Oulton, V. J. Sorger, and X. Zhang, Nano Lett. 12, 10 (2012).

12. D. J. Thomson, F. Y. Gardes, J. Fedeli, S. Zlatanovic, Y. Hu, B. P. P. Kuo, E. Myslivets, N. Alic, S. Radic, G. Z. Mashanovich, and G. T. Reed, IEEE Photon. Technol. Lett. 24, 234 (2012).

13. M. Ziebell, M. M. Delphine, G. Rasigade, J. M. Fedeli, P. Crozat, E. Cassan, D. Bouville, and L. Vivien, Opt. Express 20, 10591 (2012).

14. S. Akiyama, T. Baba, M. Imai, T. Akagawa, M. Noguchi, E. Saito, Y. Noguchi, N. Hirayama, T. Horikawa, and T. Usuki, in Proceedings of IEEE 9th International Conference on Group IV Photonics (GFP) ThC2, 192 (2012).

15. J. C. Rosenberg, W. M. J. Green, S. Assefa, C. L. Schow, A. V. Rylyakov, D. M. Gill1, B. G. Lee, C. Jahnes, T. Barwicz, S. M. Shank, and Y. A. Vlasov, in Proceedings of IEEE Photonics Conference (PHO) (2011).

16. P. Dong, C. Xie, L. Chen, N. K. Fontaine, and Y. Chen, Opt. Lett. 37, 1178 (2012).

17. P. Dong, L. Chen, C. Xie, L. L. Buhl, and Y. Chen, Opt. Express 20, 21181 (2012).

18. M. Takenaka, K. Morii, M. Sugiyama, Y. Nakano, and S. Takagi, Opt. Express 20, 8718 (2012).

19. J. Michel, J. Liu, and L. C. Kimerling, Nat. Photon. 4, 527 (2010).

20. C. T. DeRose, D. C. Trotter,W. A. Zortman, A. L. Starbuck, M. Fisher, M. R. Watts, and P. S. Davids, Opt. Express 19, 24897 (2011).

21. L. Vivien, A. Polzer, D. Marris-Morini, J. Osmond, J. M. Hartmann, P. Crozat, E. Cassan, C. Kopp, H. Zimmermann, and J. M. Fedeli, Opt. Express 20, 1096 (2011).

22. H. Pan, S. Assefa, F. Horst, C. L. Schow, A.V. Rylyakov, W. M. J. Green, M. H. Khater, S. Kamlapurka, C. Reinholm, E. Kiewra, S. M. Shank, C. W. Baks, B. J. Offrein, and Y. A. Vlasov, in Proceedings of the 9th IEEE International Conference on Group IV Photonics 162 (2012).

23. T. Pinguet, P. M. De Dobbelaere, D. Foltz, S. Gloeckner, S. Hovey, Y. Liang, M. Mack, G. Masini, A. Mekis, M. Peterson, T. Pinguet, S. Sahni, J. Schramm, M. Sharp, L. Verslegers, B. P.Welch, K. Yokoyama, and S. Yu, in Proceedings of the 9th IEEE International Conference on Group IV Photonics 189 (2012).

24. P. Dong, C. Xie, L. Chen, L. L. Buhl, and Y. Chen, in Proceedings of ECOC Th.3.B.1 (2012).

25. C. R. Doerr, L. L. Buhl, Y. Baeyens, R. Aroca, S. Chandrasekhar, X. Liu, L. Chen, and Y. -K. Chen, IEEE Photon. Technol. Lett. 23, 762 (2011).

26. H. Yi, D. S. Citrin, Y. Chen, and Z. Zhou, Appl. Phys. Lett. 95, 191112 (2009).

27. H. Yi, D. S. Citrin, and Z. Zhou, J. Opt. Soc. Am. B 28, 1611 (2011).

28. H. Yi, D. S. Citrin, and Z. Zhou, IEEE J. Quantum Electron. 47, 354 (2011).

29. L. Zhou, T. Ye, and J. Chen, Opt. Lett. 36, 13 (2011).

30. Q. Li, F. Liu, Z. Zhang, M. Qiu, and Y. Su, J. Lightwave Technol. 26, 3744 (2008).

31. Q. Chang, Q. Li, Z. Zhang, M. Qiu, T. Ye, and Y. Su, IEEE Photon. Technol. Lett. 21, 60 (2009).

32. X. Chen, C. Li, C. K. Y. Fung, S. M. G. Lo, and H. K. Tsang, IEEE Photon. Technol. Lett. 22, 1156 (2010).

33. X. Chen and H. K. Tsang, Opt. Lett. 36, 796 (2011).

34. X. Chen, K. Xu, Z. Cheng, C. K. Y. Fung, and H. K. Tsang, Opt. Lett. 37, 3483 (2012).

35. J. Yang, Z. Zhou, H. Jia, X. Zhang, and S. Qin, Opt. Lett. 36, 2614 (2011).

36. H. Wu, J. Hou, W. Mo, D. Gao, and Z. Zhou, IEEE Photon. Technol. Lett. 22, 203 (2010).

37. H. Wu, J. Hou, W. Mo, D. Gao, and Z. Zhou, Appl. Phys. B 99, 519 (2010).

38. D. Wu, X. Sui, J. Yang, and Z. Zhou, Front. Optoelectron. 5, 78 (2012).

39. D. Wu, L. Yu, H. Yi, and Z. Zhou, Proc. SPIE 8564, 856415 (2012).

40. D. Dai, L. Liu, S. Gao, D. Xu, and S. He, Laser Photon. Rev. 1, 23 (2012).

41. X. Fu and D. Dai, Electron. Lett. 47, 266 (2011).

42. D. Dai, X. Fu, Y. Shi, and S. He, Opt. Lett. 35, 2594 (2010).

43. R. Ji, L. Yang, L. Zhang, Y. Tian, J. Ding, H. Chen, Y. Lu, P. Zhou, andW. Zhu, Opt. Express 19, 18945 (2011).

44. R. Ji, L. Yang, L. Zhang, Y. Tian, J. Ding, H. Chen, Y. Lu, P. Zhou, andW. Zhu, Opt. Express 19, 20258 (2011).

45. R. Min, R. Ji, L. Yang, L. Zhang, Y. Tian, J. Ding, H. Chen, Y. Lu, P. Zhou, W. Zhu, in Proceedings of Conference on Lasers and Electro-Optics (CLEO) JW4A.14, 1 (2012).

46. M. Geng, L. Jia, L. Zhang, L. Yang, P. Chen, T. Wang, and Y. Liu, Opt. Express 17, 5502 (2009).

47. R. Guo, X. Wang, K. Zang, B. Wang, and L. Wang, Appl. Phys. Lett. 99, 161115 (2011).

48. R. Guo, B. Wang, X. Wang, L. Wang, L. Jiang, and Z. Zhou, Opt. Lett. 37, 1427 (2012).

49. B.Wang, X. Wang, M. J. A. de Dood, R. Guo, L. Wang, M. Vanhoutte, J. Michel, L. C. Kimerling, and Z. Zhou, J. Phys. D: Appl. Phys. 45, 165101 (2012).

50. B. Wang, R. Guo, X. Wang, L. Wang, L. Hong, B. Yin, L. F. Gao, and Z. Zhou, Opt. Mater. 34, 1371 (2012).

51. Z. Li, D. Xu, W. R. McKinnon, S. Janz, J. H. Schmid, P. Cheben, and J. Yu, Opt. Express 17, 15947 (2009).

52. H. Xu, X. Xiao, X. Li, Y. Hu, Z. Li, T. Chu, Y. Yu, and J. Yu, Opt. Express 20, 15093 (2012).

53. X. Xiao, X. Li, H. Xu, Y. Hu, K. Xiong, Z. Li, T. Chu, J. Yu, and Y. Yu, IEEE Photon. Technol. Lett. 24, 1712 (2012).

54. J. Ding, H. Chen, L. Yang, L. Zhang, R. Ji, Y. Tian, W. Zhu, Y. Lu, P. Zhou, and R. Min, in Proceedings of IEEE 9th International Conference on Group IV Photonics (GFP) ThP23, 305 (2012).

55. M. J. Kobrinsky, B. A. Block, J. F. Zheng, B. C. Barnett, E. Mohammed, M. Reshotko, F. Roberston, S. List, I. Young, and K. Cadien, Intel Technol. J. 8, 129 (2004).

56. Z. Tu, Y. Huang, H. Yi, X. Wang, Y. Li, L. Li, and W. W. Hu, in Proceedings of Asia Communications and Photonics Conference 8307, 1 (2011).

57. T. Hong, W. Yang, H. Yi, X. Wang, Y. Li, Z. Wang, and Z. Zhou, Proc. SPIE 8255, 82551Z (2012).

58. H. Yi, Q. Long, W. Tan, L. Li, X. Wang, and Z. Zhou, Opt. Express 20, 27562 (2012).


Save this article's abstract as
Copyright©2018 Chinese Optics Letters 沪ICP备15018463号-7 公安备案沪公网安备 31011402005522号