Tytuł artykułu
Autorzy
Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
Simulated transmission spectra for tapered fibers with no taper, one taper and two tapers in the near infrared wavelength range, calculated by Finite-Difference-Time-Domain method are currently presented. Transmission peak positions tend to shift to the shorter wavelength when the taper deformation is added to the fiber or the taper width gets narrower. The thickness sensitivity for the tapered structures with different taper thicknesses is about 2.28e-3 nm·µm−1. There is an interference structure in the electric field distribution images, which reveals in the fiber structures. The transmission spectra for the fiber without taper, one taper and two-tapered structures were simulated in near infrared wavelength by FDTD. The transmission spectra for tlated in near infrared wavelength by FDTD. The sensitivity of the fiber was about 50 nm × RIU−1 and it had better refractive index detection. The tapered fiber can be applied to the bio-chemical sensors and physical deformation testing.
Słowa kluczowe
Wydawca
Czasopismo
Rocznik
Tom
Strony
324--330
Opis fizyczny
Bibliogr. 36 poz., rys.
Twórcy
autor
- Departerment of Information Engineering, Binzhou University, Binzhou, Shandong Province, China
Bibliografia
- [1] AMANDA J.H., SHENGLI Z., GEORGE C.S., RICHARD P.V.D., J. Phys. Chem. B, 108 (2004), 109.
- [2] JIANGYAN L., HAIQIANG M., Optik, 124 (2013), 6419.
- [3] JIANGYAN L., LIN G., JINXIN F., ZHIYUAN L., Chinese Phys. B, 22 (2013), 502.
- [4] JIANGYAN L., KANGSHENG Q., HAIQIANG M., Chinese Phys. B, 23 (2014), 429.
- [5] JIANGYAN L., YILEI H., JINXIN F., ZHIYUAN L., J. Appl. Phys., 107 (2001), 667.
- [6] JIANGYAN L., ZHIYUAN L., HAIFANG Y., AIZI J., J. Appl. Phys., 104 (2008), 114303-1.
- [7] JORGENSON R.C., YEE S.S., Sensor. Actuat. B-Chem., 12 (1993), 213.
- [8] JENSEN J.B., HOIBY P.E., EMILIYANOV G., BANG O., PEDERSEN L.H., BJARKLEV A., Opt. Express, 13 (2005), 5883.
- [9] CHINOWSKY T.M., Sensor. Actuat. B-Chem., 54 (1999), 89.
- [10] CHINOWSKY T.M., YEE S.S., Sensor. Actuat. BChem., 51 (1998), 321.
- [11] JOHNSTON K.S., Sensor. Actuat. B-Chem., 54 (1999), 80.
- [12] KRATTIGER B., Appl. Optics, 32 (1993), 956.
- [13] MATSUURA Y., HARRINGTON J., J. Opt. Soc. Am. A, 14 (1997), 1255.
- [14] STELLMAN C.M., Sensor. Actuat. B-Chem., 46 (1998), 56.
- [15] TARIGAN H.J., Anal. Chem., 68 (1996), 1752.
- [16] WEIGL B.H., WOLFBEIS O.S., Anal. Chem., 66 (1994), 3323.
- [17] WOLFBEIS O.S., Trends Anal. Chem., 15 (1996), 225.
- [18] KNIGHT J.C., BIRKS T.A., RUSSELL P.S.J., ATKIN D.M., Opt. Lett., 21 (1996), 1547.
- [19] BIRKS T.A., KNIGHT J.C., RUSSEL P.S.J., Opt. Lett., 22 (1997), 961.
- [20] EIJKELEBORG M.A.V., LARGE M.C.J., ARGVROS A., ZAGARI J., MANOS S., ISSA N.A., ASSETT B., FLEMING S., MCPHEDRAN R.C., DESTERKE C.M., NINOROVICI N.A.P., Opt. Express, 9 (2001), 319.
- [21] MONRO T.M., WEST Y.D., HEWAK D.W., BRODERICK N.G.R., RICHARDSON D.J., Electron Lett., 23 (2000), 1998.
- [22] NEWBY K., REICHERT W.M., ANDRADE J.D., BENNER R.E., Appl. Optics, 23 (1984), 1812.
- [23] CULSHAW B., MUHAMMAD F., STEWART G., MURRAY S., PINCHBECK D., NORRIS J., CASSIDY S., WILKINSON M., WILLIAMS D., CRISP I., EWYK R.V., MCGHEE A., Electron Lett., 28 (1992), 2232.
- [24] HALE Z.M., PAYNE F.P., Proc. IEE. Coll. Fib. Opt. Sen. Tech. Dig. Num., 128 (1992, 81.
- [25] HOO Y.L., JIN W., HO H.L., WANG D.N., WINDELER R.S., Opt. Eng., 41 (2002), 8.
- [26] JENSEN J.B., PEDERSEN L.H., HOIBY P.E., NIELSEN L.B., HANSEN T.P., FOLKENBERG J.R., RIISHEDE J., NOORDEGRAAF D., NIELSEN K., CARLSEN A., BJARKLEV A., Opt. Lett., 29 (2004), 1974.
- [27] WANG H.P., WANG Y.C., LEUNG P.T., Thin solid films, 425 (2003), 135.
- [28] SARACOGLU O.G., HAYBER S.E., Sensors-Basel, 16 (2016), 2094.
- [29] BORECKI M., Proc. SPIE. Opt. Fib.-Appl., 5952 (2005), 595218 1.
- [30] IADICICCO A., CAMPOPIANO S., CUTOLO A., GIORDANO M., CUSANO A., IEEE Photonic Tech. L., 17 (2005), 1250.
- [31] KRUSZEWSKI J., BORECKI M., BEBLOWSKA M., Proc. SPIE., 5576 (2004), 234.
- [32] PAIPULAS D., MIKUTIS M., SIRUTKAITIS V., JUODKAZIS S., Proc. SPIE., 8786 (2013), 87860D.
- [33] XIAOMEI S., ABRAHAM H.D., Proc. SPIE., 2391 (1995), 512.
- [34] ZHAO Y., LIAO Y.B., Sensor. Actuat. B-Chem., 86 (2002), 63.
- [35] BORECKI M., DOROZ P., PRUS P., PSACZOLKOWSKI P., SZMIDT J., KORWIN-PAWLOWSKI M.L., FRYDRYCH J., KOCJUBINSKI A., DUK M., Int. J. Adv. Sys. Meas., 7 (2014), 57.
- [36] ILEV I.K., WAYANT R.W., BYRNES K.R., ANDERS J.J., Opt. Lett., 27 (2002), 1695
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-387653ce-4eb9-49f3-9e97-bb06eb081a72
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.