Frequency dependence of electric field tunability in a photonic liquid crystal fiber based on gold nanoparticles-doped 6CHBT nematic liquid crystal

IF 0.5 Q4 OPTICS

Photonics Letters of Poland Pub Date : 2020-12-31 DOI:10.4302/PLP.V12I4.1070

M. Chychłowski, T. Wolinski

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Abstract

In this paper, we investigate an external electric field frequency influence on a photonic liquid crystal fiber (PLCF) based on a gold nanoparticles (NPs)-doped nematic liquid crystal (LC) and its response to the external electric field. We used a 6CHBT nematic LC doped with 2-nm gold NPs in a weight concentration of 0.1%, 0.2%, 0.3%, and 0.5%. Full Text: PDF ReferencesJ. C. Knight, T. A. Birks, P. St. J. Russell, and D. M. Atkin, "All-silica single-mode optical fiber with photonic crystal cladding," Opt. Lett. 21, 1547-1549 (1996) CrossRef J. C. Knight,T. A. Birks, P. S. J.Russell, , and J. P. De Sandro, "Properties of photonic crystal fiber and the effective index model", JOSA A, 15(3), 748-752, (1998) CrossRef S. A. Cerqueira,F. Luan, C. M. B. Cordeiro, A. K. George, and J. C. Knight, "Hybrid photonic crystal fiber", "Optics Express", 14(2), 926-931,(2006) CrossRef W. Bragg, "Liquid Crystals", Nature 133, 445-456, (1934) https://doi.org/10.1038/133445a0 CrossRef J. Kędzierski, K. Garbat, Z. Raszewski, M. Kojdecki, K. Kowiorski, L. Jaroszewicz, and W. Piecek, "Optical properties of a liquid crystal with small ordinary and extraordinary refractive indices and small optical anisotropy", Opto-Electronics Review, 22(3), 162-165, (2014) CrossRef Y. Li, and S. T. Wu, "Polarization independent adaptive microlens with a blue-phase liquid crystal", Optics express, 19(9), 8045-8050, (2011) CrossRef T. Woliński, S. Ertman, K. Rutkowska, D. Budaszewski, M. Sala-Tefelska, M. Chychłowski, K. Orzechowski, K. Bednarska, P. Lesiak, "Photonic Liquid Crystal Fibers - 15 years of research activities at Warsaw University of Technology", Phot. Lett. Pol., (11), (2), 22-24, (2019) https://doi.org/10.4302/plp.v11i2.907. CrossRef T.T. Larsen, A. Bjraklev, D.S. Hermann, J. Broeng, Opt. Expr. 11(20), 2589, (2003) CrossRef T.R. Woliński, K. Szaniawska, K. Bondarczuk, P. Lesiak, A.W. Domański, R. Dąbrowski, E. Nowinowski-Kruszelnicki, J. Wójcik, "Propagation properties of photonic crystal fibers filled with nematic liquid crystals", Opto-Electron. Rev. 13(2), 59 (2005) DirectLink L. Scolari, S. Gauza, H. Xianyu, L. Zhai, L. Eskildsen, T. T. Alkeskjold, S.-T. Wu, and A. Bjarklev, "Frequency tunability of solid-core photonic crystal fibers filled with nanoparticle-doped liquid crystals," Opt. Express 17(5), 3754-3764 (2009). CrossRef A. Siarkowska, M. Chychłowski, D. Budaszewski, B. Jankiewicz, B. Bartosewicz, and T. R. Woliński, "Thermo-and electro-optical properties of photonic liquid crystal fibers doped with gold nanoparticles", Beilstein Journal of Nanotechnology, 8(1), 2790-2801, (2017) CrossRef D. Budaszewski, M. Chychłowski, A. Budaszewska, B. Bartosewicz, B. Jankiewicz, and T. R. Woliński, "Enhanced efficiency of electric field tunability in photonic liquid crystal fibers doped with gold nanoparticles", Optics express, 27(10), 14260-14269, (2019) CrossRef D. Budaszewski, A. Siarkowska, M. Chychłowski, B. Jankiewicz, B. Bartosewicz, R. Dąbrowski, T. R. Woliński, "Nanoparticles-enhanced photonic liquid crystal fibers", Journal of Molecular Liquids, 267, 271-278, (2018) CrossRef

查看原文本刊更多论文

基于金纳米粒子掺杂6CHBT向列相液晶的光子液晶光纤中电场可调谐性的频率依赖性

在本文中，我们研究了外部电场频率对基于金纳米颗粒（NP）掺杂向列相液晶（LC）的光子液晶光纤（PLCF）的影响及其对外部电场的响应。我们使用了掺杂有重量浓度为0.1%、0.2%、0.3%和0.5%的2-nm金NP的6CHBT向列相LC。全文：PDF参考文献J。C.Knight、T.A.Birks、P.St.J.Russell和D.M.Atkin，“带光子晶体包层的全硅单模光纤”，Opt。Lett。21547-1549（1996）CrossRef J.C.Knight，T。A.Birks、P.S.J.Russell和J.P.De Sandro，“光子晶体光纤的性质和有效折射率模型”，JOSA A，15（3），748-752，（1998）CrossRef S.A.Cerqueira，F。Luan，C.M.B.Cordeiro，A.K.George和J.C.Knight，“混合光子晶体光纤”，“Optics Express”，14（2），926-931，（2006）CrossRef W.Bragg，“液晶”，Nature 133，445-456，（1934）https://doi.org/10.1038/133445a0CrossRef J.KÉdzierski、K.Garbat、Z.Raszewski、M.Kojdecki、K.Kowiorski、L.Jaroszewicz和W.Piecek，“具有小的普通和非寻常折射率以及小的光学各向异性的液晶的光学性质”，《光电子评论》，22（3），162-165，（2014）CrossRef Y.Li和S.T.Wu，“具有蓝相液晶的偏振无关自适应微透镜”，Optics express，19（9），8045-8050，（2011）CrossRef T.Woliński，S.Ertman，K.Rutkowska，D.Budaszewski，M.Sala Tefelska，M.Chychłowski，K.Orzechowski，K.Bednarska，P.Lesiak，“光子液晶纤维-华沙理工大学15年的研究活动”，Phot。Lett。Pol。，（11），（2），22-24，（2019）https://doi.org/10.4302/plp.v11i2.907.CrossRef T.T.Larsen，A.Bjraklev，D.S.Hermann，J.Broeng，Opt。Expr。11（20），2589，（2003）CrossRef T.R.Woliński，K.Szanawska，K.Bondarczuk，P.Lesiak，A.W.Domański、R.Dãbrowski、E.Nowinowski Kruszelnicki、J.Wójcik，“填充向列液晶的光子晶体纤维的传播特性”，光电子。Rev.13（2），59（2005）DirectLink L.Scolari，S.Gauza，H.Xianyu，L.Zhai，L.Eskildsen，T.T.Alkeskjold，S.-T.Wu和A.Bjarklev，“填充有纳米颗粒掺杂液晶的实心光子晶体纤维的频率可调谐性，”Opt。Express 17（5），3754-3764（2009）。CrossRef A.Siarkowska、M.Chychłowski、D.Budaszewski、B.Jankiewicz、B.Bartosewicz和T.R.Woliński，“掺杂金纳米颗粒的光子液晶纤维的热和电光特性”，Beilstein纳米技术杂志，8（1），2790-2801，（2017）CrossRef D.Budaszewski、M.Chichł，“掺杂金纳米颗粒的光子液晶纤维中电场可调谐性的增强效率”，Optics express，27（10），14260-14269，（2019）CrossRef D.Budaszewski，A.Siarkowska，M.Chychłowski，B.Jankiewicz，B.Bartosewicz，R.Dãbrowski，T.R.Woliński，“纳米颗粒增强的光子液晶光纤”，分子液体杂志，267271-278，（2018）

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Photonics Letters of Poland OPTICS-

CiteScore

1.40

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0.00%

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