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A high-compatibility low-bending-loss photonic crystal fiber (PCF) with standard single mode fiber (SMF) is designed and manufactured successfully. From the point of the view of fiber fabrication and application, a feasible structure with a germanium-doped core surrounded by one layer of six air holes running along fiber axis is adopted in fiber design. The properties of the fabricated PCF such as modal property, bending characteristic and dispersion are systemically evaluated with indirect measurement method. Analysis results demonstrate that this fiber has a mode field area of 79.26 μm2 and dispersion of 21.7 ps·km-1·nm-1, which exhibits high compatibility with SMF. The bending loss is 0.0365 dB/turn at a wavelength of 1550 nm for a bending radius of 5 mm, which is less than the bending loss of 0.5 dB/turn of G.657B. This fiber offers an efficient way to develop the low-bending-loss fibers for the application of fiber-to-the-home.
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Keywords:
- photonic crystal fiber /
- low-bending-loss /
- fiber-to-the-home /
- high compatibility
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[6] Nakajima K, Shimizu T, Matsui T, Fukai C, Kurashima T 2010 Opt. Fiber Technol. 16 392
[7] Matsui T, Nakajima K, Fukai C 2009 J. Lightwave Technol. 27 5410
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[9] Zhang L C, Hou L T, Zhou G Y 2011 Acta Phys. Sin. 60 054217 (in Chinese) [张立超, 侯蓝田, 周桂耀 2011 60 054217]
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[12] Tsuchida Y, Saitoh K, Koshiba M 2005 Opt. Express 13 4770
[13] Wang L W, Lou S Q, Chen W G, Li H L 2010 Chin. Phys. B 19 84209
[14] Napierala M, Nasilowski T, Bereś-Pawlik E, Mergo P, Berghmans F, Thienpont H 2011 Opt. Express 19 22628
[15] Guo S, Wu F, Albin S 2004 Opt. Express 12 3341
[16] Boag A, Boag A, Mittra R 1994 Microwave Opt. Technol. Lett. 7 395
[17] Uranus H, Hoekstra H 2004 Opt. Express 12 2795
[18] White T P, McPhedran R C, de Sterks C M, Botten L C, Steel M J 2001 Opt. Lett. 26 1660
[19] Matsui T, Nakajima K, Fukai C 2009 J. Lightwave Technol. 27 5410
[20] Olszewski.J, Szpulak M, Urbańczyk W 2005 Opt. Express 13 6015
[21] Martynkien T, Olszewski J, Szpulak M, Golojuch G, Urbanczyk W, Nasilowski T, Berghmans F, Thienpont H 2007 Opt. Express 15 13547
[22] Alun J H, Peter F C 1986 J. Lightwave Technol. 4 34
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[1] Himeno K, Matsuo S, Guan N, Wada A 2005 J. Lightwave Technol. 23 3494
[2] Watekar P R, Ju S, Han W 2008 Opt. Express 16 1180
[3] Saitoh K, Tsuchida Y, Koshiba M 2005 Opt. Lett. 30 1779
[4] Nakajima K, Hogari K, Zhou J, Tajima K, Sankawa I 2003 IEEE Photon. Technol. Lett. 15 1737
[5] Li M J, Tandon P, Bookbinder D C, Bickham S R, McDermott M A, Desorcie R B, Nolan D A, Johnson J J, Lewis K A, Englebert J J 2009 J. Lightwave Technol. 27 376
[6] Nakajima K, Shimizu T, Matsui T, Fukai C, Kurashima T 2010 Opt. Fiber Technol. 16 392
[7] Matsui T, Nakajima K, Fukai C 2009 J. Lightwave Technol. 27 5410
[8] Zhang Y N 2012 Acta Phys. Sin. 61 084213 (in Chinese) [张亚妮 2012 61 084213]
[9] Zhang L C, Hou L T, Zhou G Y 2011 Acta Phys. Sin. 60 054217 (in Chinese) [张立超, 侯蓝田, 周桂耀 2011 60 054217]
[10] Knight J C, Birks T A, Cregan R F, Russell St P, deSandre J P 1998 Electron. Lett. 34 1347
[11] Olszewski J, Szpulak M, Martynkien T, Urbańczyk W, Berghmans F, Tomasz N, Thienpont H 2007 Opt. Commun. 269 261
[12] Tsuchida Y, Saitoh K, Koshiba M 2005 Opt. Express 13 4770
[13] Wang L W, Lou S Q, Chen W G, Li H L 2010 Chin. Phys. B 19 84209
[14] Napierala M, Nasilowski T, Bereś-Pawlik E, Mergo P, Berghmans F, Thienpont H 2011 Opt. Express 19 22628
[15] Guo S, Wu F, Albin S 2004 Opt. Express 12 3341
[16] Boag A, Boag A, Mittra R 1994 Microwave Opt. Technol. Lett. 7 395
[17] Uranus H, Hoekstra H 2004 Opt. Express 12 2795
[18] White T P, McPhedran R C, de Sterks C M, Botten L C, Steel M J 2001 Opt. Lett. 26 1660
[19] Matsui T, Nakajima K, Fukai C 2009 J. Lightwave Technol. 27 5410
[20] Olszewski.J, Szpulak M, Urbańczyk W 2005 Opt. Express 13 6015
[21] Martynkien T, Olszewski J, Szpulak M, Golojuch G, Urbanczyk W, Nasilowski T, Berghmans F, Thienpont H 2007 Opt. Express 15 13547
[22] Alun J H, Peter F C 1986 J. Lightwave Technol. 4 34
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