2018-11-16 Welcome guest,  Sign In  |  Sign Up
Chin. Opt. Lett.
 Home  List of Issues    Issue 10 , Vol. 06 , 2008    New functions of VCSEL-based optical devices (Invited Paper)


New functions of VCSEL-based optical devices (Invited Paper)
Fumio Koyama Microsystem Research Center, Precision, Intelligence Laboratory, [Tokyo Institute of Technology], 4259-R2-22 Nagatsuta, Midori-ku, Yokohama 226-8503, Japan


Chin. Opt. Lett., 2008, 06(10): pp.755-762-8

DOI:
Topic:Lasers and laser optics
Keywords(OCIS Code): 140.0140  230.0230  250.0250  130.0130  

Abstract
We have seen a lot of unique features off vertical cavity surface emitting lasers (VCSELs), such as low power consumption, wafer-level testing, small packaging capability, and so on. The market of VCSELs has been growing up rapidly in recent years and they are now the key devices in local area networks using multi-mode optical fibers. In addition, new functions on VCSELs have been demonstrated. In this paper, the recent advances of VCSEL photonics will be reviewed, which include the wavelength engineering and the athermal operation based on microelectro mechanical system (MEMS) technologies. Also, this paper explores the potential and challenges for new functions of VCSELs, including high-speed control of optical phase, slow light devices, plasmonic VCSELs, and so on.

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 (2341 KB)

Share:


Received:2008/8/5
Accepted:1949/10/1
Posted online:1949/10/1

Get Citation: Fumio Koyama Microsystem Research Center, Precision, Intelligence Laboratory, [Tokyo Institute of Technology], -R- Nagatsuta, Midori-ku, Yokohama -, Japan, "New functions of VCSEL-based optical devices (Invited Paper)," Chin. Opt. Lett. 06(10), 755-762-8(2008)

Note: This work was supported by Grant-in-Aid for Creative Scientific Research from the Ministry of Education, Science, Sport and Culture (#14GS0212") and was partly by NICT. Fumio Koyama's e-mail address is koyama@pi.titech.ac.jp.



References

1. K. Iga, IEEE J. Sel. Top. Quantum Electron. 6, 1201 (2000).

2. N. Nishiyama, M. Arai, S. Shinada, M. Azuchi, T. Miyamoto, F. Koyama, and K. Iga, IEEE J. Sel. Top. Quantum Electron. 7, 242 (2001).

3. C. Asplund, P. Sundgren, S. Mogg, M. Hammar, U. Christiansson, V. Oscarsson, C. Runnstrom, E. Odling, and J. Malmquist, Electron. Lett. 38, 635 (2002).

4. T. Kondo, M. Arai, T. Miyamoto, and F. Koyama, LEOS 2003, Tucson, USA WD2 (2003).

5. J. A. Lott, N. N. Ledentsov, V. M. Ustinov, N. A. Maleev, A. E. Zhukov, A. R. Kovsh, M. V. Maximov, B. V. Volovik, Zh. I. Alferov, and D. Bimberg, Electron. Lett. 36, 1384 (2000).

6. T. Anan, M. Yamada, K. Nishi, K. Kurihara, K. Tokutome, A. Kamei, and S. Sugou, Electron. Lett. 37, 566 (2001).

7. K. D. Choquette, J. F. Klem, A. J. Fischer, O. Blum, A. A. Allerman, I. J. Fritz, S. R. Kurtz, W. G. Breiland, R. Sieg, K. M. Geib, J. W. Scott, and R. L. Naone, Electron. Lett. 36, 1388 (2000).

8. B. Borchert, A. Y. Egorov, S. Illek, M. Komainda, and H. Riechert, Electron. Lett. 35, 2204 (1999).

9. T. Kageyama, T. Miyamoto, S. Makino, N. Nishiyama, F. Koyama, and K. Iga, IEEE Photon. Technol. Lett. 12, 10 (2000).

10. J. Jewell, L. Graham, M. Crom, K. Maranowski, J. Smith, and T. Fanning, Proc. SPIE 6132, 613204 (2006).

11. M. Ortsiefer, S. Baydar, K. Windhorn, E. RonnCeberg, J. Rosskopf, R. Shau, M. Grau, G. M. Bohm, and M.-C Amann, IEEE Photon. Technol. Lett. 17, 1596 (2005).

12. N. Nishiyama, C. Caneau, B. Hall, G. Guryanov, M. Hu, X. Liu, M. J. Li, R. Bhat, and C.-E. Zah, IEEE J. Sel. Top. Quantum Electron. 11, 990 (2005).

13. C. J. Chang-Hasnain, IEEE J. Sel. Top. Quantum Electron. 6, 978 (2000).

14. M. Huang, Y. Zhou, and C. J. Chang-Hasnain, Nature Photon. 2, 180 (2008).

15. F. Koyama and K. Iga, Quantum Optoelectronics of 1997 OSA Spring Topical Meeting 9, 90 (1997).

16. W. Janto, K. Hasebe, N. Nishiyama, C. Caneau, T. Sakaguchi, A. Matsutani, P. Babu Dayal, F. Koyama, and C.E. Zah, IEEE International Semiconductor Laser Conference PD1.1, Hawaii (2006).

17. S. Suda, F. Koyama, N. Nishiyama, C. Caneau, and C. E. Zah, Conference on Lasers and Electro-Optics 2006 paper CWK3 (2006).

18. C. J. Chang-Hasnain, J. P. Harbison, C. E. Zah, M. W. Maeda, L. T. Florez, N. G. Stoffel, and T. P. Lee, IEEE J. Quantum Electron. 27, 1368 (1991).

19. F. Koyama, T. Mukaihara, Y. Hayashi, N. Ohnoki, N. Hatori, and K. Iga, IEEE Photon. Technol. Lett. 7, 10 (1995).

20. L. E. Eng, K. Bacher, Y. Wupen, J. S. Harris, Jr., and C. J. Chang-Hasnain, IEEE J. Sel. Top. Quantum Electron. 1, 624 (1995).

21. G. G. Oritz, S. Q. Luong, S. Z. Sun, J. Cheng, H. Q. Hou, G. A. Vawer, and B. E. Hammons, IEEE Photon. Technol. Lett. 9, 1069 (1997).

22. K. Yang, Y. Zhou, X. D. Huang, C. P. Hains, and J. Cheng, IEEE Photon. Technol. Lett. 10, 377 (2000).

23. D. Schlenker, T. Miyamoto, Z. Chen, F. Koyama, and K. Iga, IEEE Photon. Technol. Lett. 11, 946 (1999).

24. F. Koyama, D. Schlenker, T. Miyamoto, Z. Chen, A. Matsutani, T. Sakaguchi, and K. Iga, Electron. Lett. 35, 1079 (1999).

25. T. Kondo, M. Arai, T. Miyamoto, and F. Koyama, Electron. Lett. 40, 65 (2004).

26. N. Nishiyam, C. Caneau, S. Tsuda, G. Guryanov, M. Hu, R. Bhat, and Chung-En Zah, IEEE Photon. Technol. Lett. 17, 1605 (2005).

27. M. Arai, T. Kondo, A. Onumura, A. Matsutani, T. Miyamoto, and F. Koyama, IEEE J. Sel. Top. Quantum Electron. 9, 1367 (2003).

28. Y. Uchiyama, T. Kondo, K. Takeda, A. Matsutani, T. Uchida, T. Miyamoto, and F. Koyama, Jpn. J. Appl. Phys. 44, L214 (2005).

29. N. Kitabayashi, A. Matsutani, and F. Koyama, International Symposium Contemporary Photon. Technol. 7, 79 (2007).

30. T. Amano, F. Koyama, M. Arai, and A. Matsutani, Jpn. J. Appl. Phys. 42, L1377 (2003).

31. C. H. Chang, L. Chrostowski, and C. J. Chang-Hasnain, IEEE J. Quantum Electron. 9, 1386 (2003).

32. J. Y. Law, G. H. M. van Tartwijk, and G. P. Agrawal, Quantum Semiclass. Opt. 9, 737 (1997).

33. Y. Hong, P. S. Spencer, P. Rees, and K. A. Shore, IEEE J. Quantum Electron. 38, 274 (2002).

34. A. Valle, L. Pesquera, S. I. Turovets. and J. M. López, Opt. Commun. 208, 173 (2002).

35. H. Kawaguchi, Y. Yamayoshi, and K. Tamura, CLEO 2000 CWU2, 379 (2000).

36. Y. Onishi, N. Nishiyama, C. Caneau, F. Koyama, and C.-E. Zah, IEEE Photon. Technol. Lett. 16, 1236 (2004).

37. K. Hasebe, F. Koyama, N. Nishiyama, C. Caneau, and C. E. Zah, Conference on Lasers and Electro-Optics 2006 paper CWP1 (2006).

38. S. Suda, F. Koyama, N. Nishiyama, C. Caneau, and C. E. Zah, ECOC 2006 Th1.4.7 (2006).

39. S. Suda, F. Koyama, N. Nishiyama, C. Caneau, and C. E. Zah, IEEE ISLC 2008 TuC1, Sorrento (2008).

40. M. Notomi, K. Yamada, A. Shinya, J. Takahashi, C. Takahashi, and I. Yokohama, Phys. Rev. Lett. 87, 235902 (2001).

41. A. Yariv, Y. Xu, R. K. Lee, and A. Scherer, Opt. Lett. 24, 711713 (1999).

42. X. Zhao, P. Palinginis, B. Pesala, C. J. Chang-Hasnain, and P. Hemmer, ECOC 2005 postdeadline paper, Th4.3.6 (2005).

43. M. Soljacic, S. G. Johnson, S. Fan, M. Ibanescu, E. Ippen, and J. D. Joannopoulas, J. Opt. Soc. Am. B 19, 2052 (2002).

44. E. Mizuta, H. Watanabe, and T. Baba, Jpn. J. Appl. Phys. 45, 6116 (2006).

45. Y. Sakurai and F. Koyama, Jpn. J. Appl. Phys.43, 5828 (2004).

46. P. Yeh and A. Yariv, J. Opt. Soc. Am 68, 1196 (1978).

47. K. Kuroki and F. Koyama, 12th Microoptics Conference, (MOC), Seoul, (Korea) J-1, 222 (2006).

48. G. Hirano, F. Koyama, K. Hasebe, T. Sakaguchi, N. Nishiyama, C. Caneau, and Chung-En Zah, OFC 2007 Post-deadline paper, PDP34, Anaheim (2007).

49. M. Ohtsu, Near-Field Nano/Atom Optics and Technology (Springer-Verlag, Tokyo, 1998).

50. A. Partovi, D. Peale, M. Wuttig, C. A. Murray, G. Zydzik, L. Hopkins, K. Baldwin, W. S. Hobson, J. Wynn, J. Lopata, L. Dhar, R. Chichester, and J. H.-J. Yeh, Appl. Phys. Lett. 75, 1515 (1999).

51. K. Goto, Jpn. J. Appl. Phys. 37, 2274 (1998).

52. J. Hashizume and F. Koyama, Opt. Express 12, 6391 (2004).

53. T. Thio, H. F. Ghaemi, H. J. Lezec, P. A. Wolff, and T. W. Ebbesen, J. Opt. Soc. Am. B 16, 1743 (1999).

54. T. Thio, K. M. Pellerin, R. A. Linke, H. J. Lezec, and T. W. Ebbesen, Opt. Lett. 26, 1972 (2001).

55. Z. Rao, L. Hesselink, and J. S. Harris, Opt. Lett. 32, 1995 (2007).


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