上,因此較不易達吸附飽和狀態。
5. 本研究對待測氣體氧氣和乙炔進行氣體吸附感測實驗,實驗結果 顯示氧氣和乙炔可在短時間內吸附再光纖孔壁上達到飽和狀 態。乙炔較易吸附在塑膠光子晶體光纖上,因此量測到傳輸損失 比其他氣體高。
第六章 參考文獻
1. M. A. van Eijkelenborg, M. C. J. Large, A. Argyros, J. Zagari, S.
Manos, N. A. Issa, I. Bassett, S. Fleming, R. C. McPhedran , C. M.
de Sterke and N. A. P. Nicorovici, “Microstructured Polymer Optical Fibre”, Optics Express, Vol. 9, No. 7, pp.319-327, 2001.
2. 趙梓森,“光纖通信工程(修訂本)”,人名郵電出版社,第一章,
pp.1-2,1994。
3. J. Zubia and J. Arrue, “Plastic Optical Fibers: An Introduction to Their Technological Processes and Applications”, Optical Fiber Technology 7, pp.101-140, 2001.
4. R. Paschotta, “Physical Principles and Applications of Different Types of Optical Fibers”, Optical Fiber Technology, pp.52-55, 2008.
5. 鄭振東,“光纖與通訊網路”,全華科技圖書股份有限公司,第七 章,pp.34-58,1999。
6. 彭吉虎,吳伯瑜,“光纖技術及應用”,北京理工大學出版社,第 三章-第四章,pp.34-81,1995。
7. S. Sanguanpong, “Fiber Optical Fundamentals”, Thailand, 2000.
8. 賴柏洲,“光纖通信與網路技術”,全華科技圖書股份有限公司,
第二章,pp.10-15,2004。
9. 廖延彪,“光纖光學”,清華大學出版社,第二章,pp.54,2000。
10. 聶秋華,“單模光纖及其特性參數測量”,全華科技圖書股份有限
11. E. Yablonovitch, “Inhibited Spontaneous Emission in Solid-State Physics and Electronics”, Physical Review Letters, Vol. 58, No. 20, pp.2059-2062, 1987.
12. S. John, “Strong Localization of Photons in Certain Disordered Dielectric Superlattices”, Physical Review Letters, Vol. 58, No. 23, pp.2486-2489, 1987.
13. 盧贊文,李柏璁,“光通訊波長二維光子晶體雷射發展簡介”,物 理雙月刊(廿七卷五期),pp.693-700,2005。
14. 欒丕綱,陳啟昌,“光子晶體”,五南圖書出版公司,第七章,
pp.263,2005。
15. 饒雲江,劉德森,“光纖技術”,科學出版社,第四章,pp.98,2006。
16. J. C. Knight, T. A. Birks, P. St. J. Russell and D. M. Atkin, “All-silica Single-Mode Optical Fiber with Photonic Crystal Cladding”, Optical Letters, Vol. 21, No. 19, pp.1547-1549, 1996.
17. R. F. Cregan,B. J. Mangan,J. C. Knight, T. A. Birks,P. St. J. Russell, P. J. Roberts, D. C. Allan, “Single-mode Photonic Band Gap Guidance of Light in Air”, Science, Vol. 285, pp.1537-1539, 1999.
18. M. Y. Chen, Rongjin Yu,“Square-structured Photonic Bandgap Fibers”,Optics Communications 235, pp.63–67, 2004.
19. J. Zhou, K. Tajima, K. Nakajima,K. Kurokawa, C. Fukai, T. Matsui, I.
Sankawa, “Progress on Low Loss Photonic Crystal Fiber”, Optical Fiber Technology 11, pp.101–110, 2005.
20. L. Farr, J. C. Knight, B. J. Mangan, P. J. Roberts, “Low Loss Photonic Crystal Fiber”, Optical Communication, 2002.
21. K. Tajima, K. Nakajima, K. Kurokawa, “Low-loss Photonic Crystal Fibers”, Japan.
22. K. Tajima, J. Zhou, K. Nakajima, K. Sato, “Ultra Low Loss and Long Length Photonic Crystal Fiber”, Journal of Lightwave Technology, Vol. 22, No. 1, 2004.
23. M. D. Nielsen, C. Jacobsen, N. A. Mortensen1, J. R. Folkenberg, H.
R. Simonsen, “Low-loss Photonic Crystal Fibers for Transmission Systems and Their Dispersion Properties”, Optical Express, Vol. 12, No. 7, pp.1372-1376, 2004.
24. 陳世春,“塑膠物性入門”,復漢出版社,第一章,pp.1-10,2001。
25. 賴耿陽,“塑膠大全”,台灣復文興業股份有限公司,第一章-第三 章,1993。
26. M. A. van Eijkelenborg , A. Argyros, G. Barton, I. Bassett, F. Cox, M.
Fellew, S. Fleming, G. Henry, N. Issa, M. Large, S. Manos, L.
Poladian, J. Zagari, “New Possibilities with Micro-structured Polymer Optical Fiber”, 2002.
27. Paul Polishuk,“Plastic Optical Fibers Branch Out”, Communications Magazine, pp.140-148, 2006.
28. C. Elosua, I. R. Matias, C. Bariain and F. J. Arregui, “Volatile Organic Compound Optical Fiber Sensors: A Review”, Sensors, 1440-1465, June, 2006.
29. 陳娟,彭錫鈺,蒲春華,“光纖氣體傳感器綜述”,吉林工學院學 報,Vol. 18,No. 3,1997。
30. 靳偉,廖延彪,張志鵬,“導波光學傳導器:原理與技術”,科學 出版社,第八章,pp.254-283,1998。
31. S. O. Konorov and A. M. Zheltikov, “Photonic-crystal fiber as a multifunctional optical sensor and sample collector”, Optics Express, Vol. 13, No. 9, pp.3454-3459, 2005.
32. W. Peng, G. R. Pickrell, F. Shen, A. Wang, “Experimental Investigation of Optical Waveguide-Based Multigas Sensing”, IEEE Photon. Tech. Lett, Vol. 16, No. 10, pp.2317-2319, 2004
33. Y. L. Hoo, W. Jin, H. L. Ho, “Evanescent-Wave Gas Sensing Microstructure Fiber” Opt. Eng., 41, pp.8-9, 2002.
34. S. K. Khijwania, B. D. Gupta et al, “Fibre-optic Evanescent Field Absorption Sensor Based on A U-shaped Probe” Optical and Quantum Electronics, 28, 162, 1996.
35. A. Babchenko, V. Chernyak, J. Maryles, “Bio-Chemical Sensor Based on Imperfected Plastic Optical Fiber”, Proceeding of SPIE, Vol. 6585, 65851V, 2007.
36. Y. L. Hoo, W. Jin, H. L. Ho, and D. N. Wang, “Measurement of Gas Diffusion Coefficient Using Photonic Crystal Fiber”, Photonics Technology Letters, Vol. 15, No. 10, pp.1434-1436, 2003.
37. Y. L. Hoo, W. Jin, H. L. Ho, J. Ju, D.N. Wang ,“Gas Diffusion Measurement Using Hollow-Core Photonic Bandgap Fiber”,Sensors and Actuators B 105, pp.183-186, 2004.
38. T. Ritari, J. Tuominen, and H. Ludvigsen, “Gas Sensing Using Air-guiding Photonic Bandgap Fibers”, Optics Express, Vol. 12, No.
17, pp4080-4087, 2004.