-
Due to the unique characteristics of the hollow core fiber(HCF), more and more researchers pay attention to its application. Because the mode field is mainly limited to the core region of the fiber, which results in low non-linearity, ultra-low group velocity dispersion, low temperature sensitivity, and high material damage threshold. Based on above, there are some attractive nonlinear applications of the HCF, such as transmission of high-power laser beams, sensing, ultra-wide band low-loss transmission, pulse compression and super-continuum generation. Besides, the HCF can be further divided into the transmitting band-gap photonic crystal fiber(PBG-PCF) and the hollow-core anti-resonant fiber(HC-ARF). Compared with the PBG-PCF, the latter has wider light guiding characteristics caused by leaking modes. According to the research in the recent year, the HC-ARF has gradually approached the performance of the PBG-PCF in its transmission loss which shows that it has potential applications of communications, sensing, aerospace, high-power laser transmission and other fields in the future. In addition, the HC-ARF with the special light-guiding properties has also become the important photonic devices in the fields of fiber filters, mode conversion, etc. In this paper, a hollow-core anti-resonance fiber is studied and its light transmission performance in the spectral range of 500 ~ 1500 nm is verified. The optical loss measured at 980 nm wavelength is about 0.32 db/m. It is founded that a 980nm multi-mode laser beam can be converted into a singe-mode one after transmitting through the hollow core fiber we designed.
-
Keywords:
- Fiber optics /
- anti-resonance /
- light guide characteristics /
- mode conversion
-
[1] Zenteno L A, Minelly J D, Dejneka M, Crigler S 2000 Topical Meeting on Advanced Solid State Lasers 34440
[2] Rser F, Jauregui C, Limpert J, Tünnermann A 2008 Optics Express 1622
[3] Li P X, Zou S Z, Zhang X X, Bai Z A, Li G 2010 Optics and Laser Technology 428
[4] Li P X, Zhang X X, Liu Z, Chi J J 2011 International Symposium on Photoelectronic Detection and Imaging 2011-Laser Sensing and Imaging and Biological and Medical Applications of Photonics Sensing and Imaging Beijing, Peoples R China, May 24-26, 201181921W
[5] Leich M, Jaeger M, Jager M, Grimm S, Hoh D, Jetschke S, Becker M, Hartung A, Bartelt H 2014 Laser Physics Letters 114
[6] Ballato J, Aleshkina S S, Likhachev M E, Lipatov, D S 2016 Conference on Fiber Lasers XIII -Technology, Systems, and Applications San Francisco, CA, Feb 15-18, 201697281C
[7] Paul B K, Ahmed K, Vigneswaran D, Sen S, Islam, M S 2019 Optical and Quantum Electronics 517
[8] Qin J Y, Zhu B, Du Y, Han Z H 2019 Optical Fiber Technology 52101990
[9] Stefani A, Fleming S C, Kuhlmey B T 2018 Apl Photonics 35
[10] Yu F, Wadsworth W J, Knight J C 2012 Optics Express 2010
[11] Huang X, Yoo S, Yong K T 2017 Scientific Reports 71
[12] Kosolapov A F, Alagashev G K, Kolyadin A N, Pryamikov A D, Biriukov A S, Bufetov I A, Dianov E M 2016 Quantum Electronics 463
[13] Bradley T D, Jasion G T, Hayes J R, Chen Y, Hooper L, Sakr H, Alonso M, Taranta A, Saljoghei A, Mulvad H C, Fake M, Davidson I A K, Wheeler N V, Fokoua E N, Wei Wang, Sandoghchi S R, Richardson D J, Poletti F 201945th European Conference on Optical Communication (ECOC 2019) Dublin, Ireland, Sept 22-26, 2019 p4
[14] Gao S F, Wang Y Y, Ding W, Jiang D L, Gu S, Zhang X, Wang P 2018 Nature Communications 91
[15] Yu F, Song P, Wu D K, Birks T, Bird D, Knight J 2019 APL Photonics 48
[16] Jasion G T, Bradley T D, Harrington K, Sakr H, Chen Y, Fokoua E N, Davidson I A, Taranta A, Hayes J R, Richardson D J, Poletti F 2020 Optical Fiber Communications Conference and Exposition (OFC) San Diego,CA, Mar 08-12, 2020
[17] Tamura Y, Sakuma H, Morita K, Suzuki M, Yamamoto, Y, Shimada K, Honma Y, Sohma K, Fujii T, Hasegawa T 2018 Journal of Lightwave Technology 361
[18] Markos C, Nielsen K, Bang O 2015 Journal of Optics 1710
[19] Markos C, Travers J C, Abdolvand A, Eggleton B J 2017 Reviews of Modern Physics 894
[20] Fini J M, Nicholson J W, Mangan B, Meng L L, Windeler R S, Monberg E M, Desantolo A, Dimarcello F V, Mukasa K 2014 Nature Communications 55085.
[21] Michieletto M, Lyngso J K, Jakobsen C, Laegsgaard J, Bang O, Alkeskjold T T 2016 Optics Express 247
[22] Wei C L, Kuis R A, Chenard F, Menyuk C R, Hu J 2015 Optics Express 2312
[23] Uebel P, Gunendi M, Frosz M H, Ahmed G, Edavalath N N, Menard J M, Russell P S J 2016 Optics Letters 419
[24] Kumar A, Saini T S, Naik K D, Sinha R K 2016 Applied Optics 5519
[25] Kabir S, Razzak S M A 2018 Optik 162206
[26] Kabir S, Razzak S M A 2019 Photonics and Nanostructures-Fundamentals and Applications 301
计量
- 文章访问数: 3187
- PDF下载量: 32
- 被引次数: 0