進階搜尋


 
系統識別號 U0026-2507201217315900
論文名稱(中文) 利用強注入穩定鎖住半導體雷射之四波混合動態於全光頻率轉換之實驗研究
論文名稱(英文) Experimental Study of All-Optical Frequency Conversion Using Four-Wave Mixing in Strongly Injection-Locked Semiconductor Lasers
校院名稱 成功大學
系所名稱(中) 光電科學與工程學系
系所名稱(英) Department of Photonics
學年度 100
學期 2
出版年 101
研究生(中文) 林宏駿
研究生(英文) Hung-Chun Lin
學號 L76991415
學位類別 碩士
語文別 中文
論文頁數 73頁
口試委員 指導教授-黃勝廣
口試委員-魏明達
口試委員-曾碩彥
中文關鍵字 四波混合  半導體雷射  注入鎖住  波長轉換器  非線性動態  注入參數 
英文關鍵字 Four-wave mixing  Semiconductor Laser  Injection-locked  wavelength converter  Nonlinear dynamics  Injection parameter 
學科別分類
中文摘要 在本篇論文中主要著重在用實驗去研究半導體雷射遭外部注入鎖住下之四波混合的非線性動態,在非線性注入系統的地圖主要是由兩個參數決定,非別是注入參數以及主副雷射的頻率差。接著分別探討自由震盪下雷射的四波混合與穩定注入鎖住下之雷射的四波混合並做了靜態分析與動態分析,藉由靜態分析的結果可發現穩定注入鎖住後雷射的四波混合在轉換頻寬方面會有更佳的效果,而在動態分析的系統用以夾帶調變的光訊號來做波長轉換器,注入訊號的位置皆在鬆弛震盪頻率下可證明,穩定注入下雷射的四波混合訊號與自由震盪下雷射的四波混合訊號在達到同樣的誤碼率10−9所需的接收功率約差5 dB。
英文摘要 Experimental study on the nonlinear dynamics four wave mixing in stably injection-locked semiconductor laser subject to external injection laser is demonstrated in this thesis. There are two important parameters can be described in nonlinear dynamics laser mapping, injection parameter and detuning frequency between master laser and slave laser. And then, we discussed the static analysis and dynamic analysis that difference between free running of four-wave mixing and injection-locked of four-wave mixing. By static analysis can prove that conversion bandwidth is better at injection-locked of four-wave mixing. Optical can be modulated to do wavelength converter that called dynamic analysis, by inject with same position of relaxation resonance frequency, To achieve the same Bit error rate at 10−9, the received optical power is difference about 6 dB between injection-locked of four-wave mixing and free running of four-wave mixing.
論文目次 目錄
英文摘要 ..................................................... I
中文摘要 .................................................... II
致謝 ......................................................... III
圖目錄 ...................................................... VI
表目錄 ...................................................... XI
1 前言 ........................................................ 1
1.1 研究動機 ................................................ 1
1.2 波長轉換技術 ............................................ 3
1.2.1 研究背景 ............................................ 3
1.2.2 常見的全光波長轉換器 ................................ 4
1.2.3 光注入半導體雷射之四波混合波長轉換器 ............... 10
1.3 論文架構 ............................................... 12
2 光注入系統 ................................................. 14
2.1 光注入原理 ............................................. 14
2.1.1光注入實驗架構 ...................................... 15
2.1.2光注入下的雷射非線性動態圖 .......................... 19
3 靜態分析 ................................................... 24
3.1自由震盪下的雷射於四波混合 ............................. 25
3.1.1實驗架構 ............................................ 25
3.1.2實驗數據 ............................................ 27
3.2穩定注入鎖住下的雷射於四波混合 ......................... 31
3.2.1實驗架構 ............................................ 31
3.2.2實驗數據 ............................................ 34
4 動態分析 ................................................... 42
4.1自由震盪下的雷射於四波混合 ............................. 42
4.1.1實驗架構 ............................................ 43
4.1.2實驗數據 ............................................ 46
4.2穩定注入鎖住下的雷射於四波混合 ......................... 50
4.2.1實驗架構 ............................................ 51
4.2.2實驗數據 ............................................ 52
5 總結與展望 ................................................. 68
參考文獻 ..................................................... 70
參考文獻 參考文獻
[1] 蔡欣宏(2008),「穩定注入鎖住半導體雷射調變特徵根據四波混合時作為 頻率轉換之研究」,國立中正大學光機電整合工程研究所碩士論文。
[2] T,Durhuus and B,Mikkelsen "All-optical wavelength conversion by semiconductor optical amplifiers." Lightwave Technology, Journal of 14(6):942-954. (1996)
[3] K,E,Stukjaer and C,Joergensen. "Wavelength conversion devices and techniques Optical Communication." 1996. ECOC '96. 22nd European Conference on. (1996)
[4] M,Asghari and I,H,White "Wavelength conversion using semiconductor optical amplifiers." Lightwave Technology, Journal of 15(7): 1181-1190. (1997)
[5] D,Nesset and T,Kelly "All-optical wavelength conversion using SOA nonlinearities." Communications Magazine, IEEE 36(12): 56-61. (1998)
[6] T,Durhuus and C,Joergensen "All optical wavelength conversion by SOA's in a Mach-Zehnder configuration." Photonics Technology Letters, IEEE 6(1): 53-55. (1994)
[7] Y,Suzuki, and T,Hiromu "Recent Research and Development of All-Optical Wavelength Conversion Devices." Ntt Photonics Lab NO.1;PAGE.26-31(2003)
[8] J,M,H,Elmirghani and H,T,Mouftah "All-optical wavelength conversion: technologies and applications in DWDM networks." Communications Magazine, IEEE 38(3):86-92. (2000)
[9] S,J,B,Yoo. C,Caneau. R,Bhat. M,A,Koza. A,Rajhel and N,Antoniades "Wavelength conversion by difference frequency generation in AlGaAs waveguides with periodic domain inversion achieved by wafer bonding." Appl. Phys. Lett. 68, 2609 (1996)
[10] H,Ishikawa. S,Watanabe, H,Kuwatsuka "Wavelength Conversion Technologies for 71 Photonic Network Systems." FUJITSU Sci. Tech PP.126-138. (1999)
[11] M,C,Tatham "20 nm optical wavelength conversion using nondegenerate four-wave mixing.", IEEE Photonics Technol. Lett., vol. 5, pp. 1303-1306,(1993)
[12] R,M,Jopson and R,E,Tench, "Polarization independent phase conjugation of
lightwave signals." Electron. Lett., vol. 29, pp. 2216-2217,(1993)
[13] S,J,B,Yoo "Wavelength conversion technologies for WDM network applications." Lightwave Technology, Journal of 14(6): 955-966. (1996)
[14] L,Linlin and K,Petermann "Characteristics of the optical-frequency conversion in a semiconductor laser." Quantum Electronics, IEEE Journal of 29(11): 2793-2798. (1993)
[15] J,M,Liu and T,B,Simpson "Four-wave mixing and optical modulation in a semiconductor laser." Quantum Electronics, IEEE Journal of 30(4): 957-965. (1994)
[16] T,B,Simpson and J,M,Liu "Small-signal analysis of modulation characteristics in a semiconductor laser subject to strong optical injection." Quantum Electronics, IEEE Journal of 32(8): 1456-1468. (1996)
[17] Linlin, L. and K,Petermann "Small-signal analysis of optical-frequency conversion in an injection-locked semiconductor laser." Quantum Electronics, IEEE Journal of 30(1): 43-48. (1994)
[18] J,M,Liu and H,F,Chen. X, J,Meng, and T,B,Simpson "Modulation bandwidth, noise, and stability of a semiconductor laser subject to strong injection locking." IEEE Photon. Technol. Lett., vol. 9, no. 10, pp. 1325-1327, (1997)
[19] T,B,Simpson. J,M,Liu "Nonlinear dynamics induced by external optical injection in semiconductor lasers." Quantum Semiclass. opt.9, pp. 765-784, 1997
[20] J,M,Liu and T,B,Simpson "Characterization of fundamental parameters of a semiconductor laser with an injected optical probe." IEEE Volume: 5 , Issue: 72 4 Page(s): 380 - 382
[21] Y,Okajima. S,K,Hwang and J,M,Liu "Experimental observation of chirp reduction in bandwidth-enhanced semiconductor lasers subject to strong optical injection." Opt. Commun., vol. 219, pp. 357-364, (2003)
[22] T,B,Simpson "Mapping the nonlinear dynamics of distributed feedback semiconductor laser subject to external optical injection." Opt. Commun. vol.215, pp.135-151, (2003)
[23] S,K,Hwang and J,M,Tian "Chirp Reduction in Directly Modulated Semiconductor Lasers Subject to External Optical Injection." IEEE LEOS Annual Meeting Conference Proceedings, pp. 798-799, (2005)
[24] S,K,Hwang and J,M,Liu "Dynamical characteristics of an optically injected semiconductor laser." Opt. Commun. vol.183, pp.195-205, (2000)
[25] T,B,Simpson. J,M,Liu and A,Gavrielides "Bandwidth enhancement and broadband noise reduction in injection-locked semiconductor lasers. " IEEE Photon. Technol. Lett., vol. 7, no. 7, pp. 709-711, (1995)
[26] H,F,Chen. J,M,Liu and T,B,Simpson "Response characteristics of direct current modulation on a bandwidth-enhanced semiconductor laser under strong injection locking." Opt. Commun., vol. 173, pp. 349-355(2000)
[27] Y,Okajima. S,K,Hwang, and J,M,Liu "Experimental observation of chirp reduction in bandwidth-enhanced semiconductor lasers subject to strong optical injection." Opt. Commun., vol. 219, pp. 357-364, (2003)
[28] S,K,Hwang. S,H,Tsai "Four-Wave mixing of strongly Injection-Locked Semiconductor Lasers for All-Optical Frequency Conversion." SPIE Digital Library Vol.7781
論文全文使用權限
  • 同意授權校內瀏覽/列印電子全文服務,於2017-08-24起公開。
  • 同意授權校外瀏覽/列印電子全文服務,於2017-08-24起公開。


  • 如您有疑問,請聯絡圖書館
    聯絡電話:(06)2757575#65773
    聯絡E-mail:etds@email.ncku.edu.tw