FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2061052739> ?p ?o ?g. }

• W2061052739 endingPage "22" @default.
• W2061052739 startingPage "20" @default.
• W2061052739 abstract "liquid crystal fibers (PLCFs) define a new class of optical waveguides that combines unique properties of microstructured photonic crystal fibers and liquid crystals. Current progress of research in the field of PLCFs means that a new class of emerging photonics devices can be expected, i.e. tunable attenuators, tunable broad-band filters, tunable polarizers (with an arbitrary PDL and a variable axis of polarization), tunable waveplates, and tunable phase shifters with high retardance will appear in the near future. In this work we would like to discuss this perspective, paying special attention to two most challenging technological issues such as control of LC molecules orientation and permanent connecting of PLCFs to standard fibers. Full text: PDF References: P.J. Russell, Photonic-Crystal Fibers, J. Lightwave Technol. 24, 4729 (2006). [CrossRef] D.B. Eggleton et al, Microstructured optical fiber devices, Opt. Exp. 9, 698 (2001). [CrossRef] T.T. Larsen et al., Optical devices based on liquid crystal photonic bandgap fibres, Opt. Exp. 11, 2589 (2003). [CrossRef] T.R. Wolinski et al, Propagation properties of photonic crystal fibers filled with nematic liquid crystals, Opto-Electronics Rev. 13(2), 177 (2005). [DirectLink] J. Du et al., crystal photonic bandgap fiber: different bandgap transmissions at different temperature ranges, Appl. Opt. 47, 5321 (2008). [CrossRef] M.Y. Jeon, J.H. Kim, Transmission Characteristics in Liquid-Crystal-Infiltrated Crystal Fibers, Japan. Jour. Appl. Phys. 47(4), 2174 (2008). [CrossRef] Q. Lu, S.T.Wu, Electrically tunable liquid-crystal photonic crystal fiber, Appl. Phys. Lett. 85, 2181 (2004). [CrossRef] M.W. Haakestad et al., Electrically tunable photonic bandgap guidance in a liquid-crystal-filled photonic crystal fiber, IEEE Photon. Technol. Lett. 17, 819 (2005). [CrossRef] T.R. Wolinski et al., Influence of temperature and electrical fields on propagation properties of photonic liquid-crystal fibres, Meas. Sci. Technol. 17, 985 (2006). [CrossRef] L. Scolari et al., Continuously tunable devices based on electrical control of dual-frequency liquid crystal filled photonic bandgap fibers, Opt. Expr. 13, 7483 (2005). [CrossRef] A. Lorenz et al., Photonic crystal fiber with a dual-frequency addressable liquid crystal: behavior in the visible wavelength range, Opt. Expr. 16, 19375 (2008). [CrossRef] T. Alkeskjold et al., All-optical modulation in dye-doped nematic liquid crystal photonic bandgap fibers, Opt. Expr. 12, 5857 (2004). [CrossRef] V.K. Hsiao, C.-Y. Ko, Light-controllable photoresponsive liquid-crystal photonic crystal fiber, Opt. Expr. 16, 12670 (2008). [CrossRef] L. Scolari et al., Frequency tunability of solid-core photonic crystal fibers filled with nanoparticle-doped liquid crystals, Opt. Expr. 17, 3754 (2009). [CrossRef] T.T. Alkeskjold, A. Bjarklev, Electrically controlled broadband liquid crystal photonic bandgap fiber polarimeter, Opt. Lett. 32, 1707 (2007). [CrossRef] T.R. Wolinski et al., Polarization effects in photonic liquid crystal fibers , Meas. Sci. Technol. 18, 3061 (2007). [CrossRef] T.R. Wolinski et al., Tunable highly birefringent solid-core photonic liquid crystal fibers, Opt. Quantum Electron. 39(12-13), 1021 (2007). [CrossRef] S. Ertman et al., Light propagation in highly birefringent photonic liquid crystal fibers , Opto-Electronics Review 17, 150 (2009). [CrossRef] L. Wei et al., Continuously tunable all-in-fiber devices based on thermal and electrical control of negative dielectric anisotropy liquid crystal photonic bandgap fibers, Appl. Opt. 48, 497 (2009). [CrossRef] S. Ertman et al., Low-loss propagation and continuously tunable birefringence in high-index photonic crystal fibers filled with nematic liquid crystals, Opt. Expr. 17, 19298 (2009). [CrossRef] T.R. Wolinski et al., 2010 International Conference on Photonics, ICP2010, art. no. 5604369. T.R. Wolinski et al., crystal photonic crystal fibers and their applications, Proc. SPIE 7955, 795502 (2011). [CrossRef] V.V. Presnyakov et al, Infiltration of photonic crystal fiber with liquid crystals, Proc. SPIE 6017, 60170J-1-7 (2005). [CrossRef] S. Ertman et al, crystal molecular orientation in photonic liquid crystal fibers with photopolymer layers , Proc. SPIE 6587, 658706 (2007). [CrossRef] M.S. Chychlowski et al., Photo-Induced Orientation of Nematic Liquid Crystals in Microcapillaries, Acta Phys. Polonica 118, 1100 (2010). [DirectLink] M. Murawski et al., A photonic crystal fiber splice with a standard single mode fiber, Phot. Lett. Poland 1(3) 115 (2009). [CrossRef]" @default.
• W2061052739 created "2016-06-24" @default.
• W2061052739 creator A5025163037 @default.
• W2061052739 creator A5029366901 @default.
• W2061052739 creator A5045124866 @default.
• W2061052739 creator A5065239671 @default.
• W2061052739 creator A5065398286 @default.
• W2061052739 creator A5068690298 @default.
• W2061052739 creator A5074740499 @default.
• W2061052739 creator A5075675422 @default.
• W2061052739 creator A5086674699 @default.
• W2061052739 creator A5087927126 @default.
• W2061052739 creator A5088264186 @default.
• W2061052739 creator A5089577912 @default.
• W2061052739 date "2011-03-31" @default.
• W2061052739 modified "2023-10-17" @default.
• W2061052739 title "Emerging photonic devices based on photonic liquid crystal fibers" @default.
• W2061052739 cites W1963594023 @default.
• W2061052739 cites W1983042684 @default.
• W2061052739 cites W1986144597 @default.
• W2061052739 cites W1990175753 @default.
• W2061052739 cites W1992801499 @default.
• W2061052739 cites W2002712699 @default.
• W2061052739 cites W2005552316 @default.
• W2061052739 cites W2005846258 @default.
• W2061052739 cites W2013933755 @default.
• W2061052739 cites W2019509643 @default.
• W2061052739 cites W2022383696 @default.
• W2061052739 cites W2034033190 @default.
• W2061052739 cites W2055004820 @default.
• W2061052739 cites W2060701560 @default.
• W2061052739 cites W2076168661 @default.
• W2061052739 cites W2084832291 @default.
• W2061052739 cites W2092304220 @default.
• W2061052739 cites W2096312906 @default.
• W2061052739 cites W2103166662 @default.
• W2061052739 cites W2129029311 @default.
• W2061052739 cites W2130838982 @default.
• W2061052739 cites W2142896101 @default.
• W2061052739 cites W2156051070 @default.
• W2061052739 cites W2161099274 @default.
• W2061052739 cites W844367938 @default.
• W2061052739 hasPublicationYear "2011" @default.
• W2061052739 type Work @default.
• W2061052739 sameAs 2061052739 @default.
• W2061052739 citedByCount "5" @default.
• W2061052739 countsByYear W20610527392012 @default.
• W2061052739 countsByYear W20610527392013 @default.
• W2061052739 countsByYear W20610527392014 @default.
• W2061052739 countsByYear W20610527392015 @default.
• W2061052739 crossrefType "journal-article" @default.
• W2061052739 hasAuthorship W2061052739A5025163037 @default.
• W2061052739 hasAuthorship W2061052739A5029366901 @default.
• W2061052739 hasAuthorship W2061052739A5045124866 @default.
• W2061052739 hasAuthorship W2061052739A5065239671 @default.
• W2061052739 hasAuthorship W2061052739A5065398286 @default.
• W2061052739 hasAuthorship W2061052739A5068690298 @default.
• W2061052739 hasAuthorship W2061052739A5074740499 @default.
• W2061052739 hasAuthorship W2061052739A5075675422 @default.
• W2061052739 hasAuthorship W2061052739A5086674699 @default.
• W2061052739 hasAuthorship W2061052739A5087927126 @default.
• W2061052739 hasAuthorship W2061052739A5088264186 @default.
• W2061052739 hasAuthorship W2061052739A5089577912 @default.
• W2061052739 hasConcept C107157254 @default.
• W2061052739 hasConcept C120665830 @default.
• W2061052739 hasConcept C121332964 @default.
• W2061052739 hasConcept C121524040 @default.
• W2061052739 hasConcept C125743686 @default.
• W2061052739 hasConcept C13274807 @default.
• W2061052739 hasConcept C148582644 @default.
• W2061052739 hasConcept C170642482 @default.
• W2061052739 hasConcept C181966813 @default.
• W2061052739 hasConcept C192562407 @default.
• W2061052739 hasConcept C194232370 @default.
• W2061052739 hasConcept C203637571 @default.
• W2061052739 hasConcept C20788544 @default.
• W2061052739 hasConcept C21651689 @default.
• W2061052739 hasConcept C22799297 @default.
• W2061052739 hasConcept C49040817 @default.
• W2061052739 hasConcept C75302062 @default.
• W2061052739 hasConceptScore W2061052739C107157254 @default.
• W2061052739 hasConceptScore W2061052739C120665830 @default.
• W2061052739 hasConceptScore W2061052739C121332964 @default.
• W2061052739 hasConceptScore W2061052739C121524040 @default.
• W2061052739 hasConceptScore W2061052739C125743686 @default.
• W2061052739 hasConceptScore W2061052739C13274807 @default.
• W2061052739 hasConceptScore W2061052739C148582644 @default.
• W2061052739 hasConceptScore W2061052739C170642482 @default.
• W2061052739 hasConceptScore W2061052739C181966813 @default.
• W2061052739 hasConceptScore W2061052739C192562407 @default.
• W2061052739 hasConceptScore W2061052739C194232370 @default.
• W2061052739 hasConceptScore W2061052739C203637571 @default.
• W2061052739 hasConceptScore W2061052739C20788544 @default.
• W2061052739 hasConceptScore W2061052739C21651689 @default.
• W2061052739 hasConceptScore W2061052739C22799297 @default.
• W2061052739 hasConceptScore W2061052739C49040817 @default.
• W2061052739 hasConceptScore W2061052739C75302062 @default.
• W2061052739 hasIssue "1" @default.

• next