Relevant bibliographies by topics / Photonic crystal fibre

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Photonic crystal fibre'

Author: Grafiati
Published: 4 June 2021
Last updated: 20 February 2023

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Journal articles on the topic "Photonic crystal fibre"

1

Russell, P. St J., R. Beravat, and G. K. L. Wong. "Helically twisted photonic crystal fibres." Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences 375, no. 2087 (February 28, 2017): 20150440. http://dx.doi.org/10.1098/rsta.2015.0440.

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Recent theoretical and experimental work on helically twisted photonic crystal fibres (PCFs) is reviewed. Helical Bloch theory is introduced, including a new formalism based on the tight-binding approximation. It is used to explore and explain a variety of unusual effects that appear in a range of different twisted PCFs, including fibres with a single core and fibres with N cores arranged in a ring around the fibre axis. We discuss a new kind of birefringence that causes the propagation constants of left- and right-spinning optical vortices to be non-degenerate for the same order of orbital angular momentum (OAM). Topological effects, arising from the twisted periodic ‘space’, cause light to spiral around the fibre axis, with fascinating consequences, including the appearance of dips in the transmission spectrum and low loss guidance in coreless PCF. Discussing twisted fibres with a single off-axis core, we report that optical activity in a PCF is opposite in sign to that seen in a step-index fibre. Fabrication techniques are briefly described and emerging applications reviewed. The analytical results of helical Bloch theory are verified by an extensive series of ‘numerical experiments’ based on finite-element solutions of Maxwell's equations in a helicoidal frame. This article is part of the themed issue ‘Optical orbital angular momentum’.
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Rigby, Pauline. "A photonic crystal fibre." Nature 396, no. 6710 (December 1998): 415–16. http://dx.doi.org/10.1038/24739.

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Budaszewski, Daniel, and Tomasz R. Woliński. "Light propagation in a photonic crystal fiber infiltrated with mesogenic azobenzene dyes." Photonics Letters of Poland 9, no. 2 (July 1, 2017): 51. http://dx.doi.org/10.4302/plp.v9i2.730.

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In this paper, light propagation in an isotropic photonic crystal fiber as well in a silica-glass microcapillary infiltrated with a mesogenic azobenzene dye has been investigated. It appeared that light spectrum guided inside the photonic crystal fiber infiltrated with the investigated azobenzene dye depends on the illuminating wavelength of the absorption band and on linear polarization. Also, alignment of the mesogenic azobenzene dye molecules inside silica glass microcapillaries and photonic crystal fibers has been investigated. Results obtained may lead to a new design of optically tunable photonic devices. Full Text: PDF ReferencesP. Russell. St. J. "Photonic-Crystal Fibers", J. Lightwave Technol. 24, 4729 (2006). CrossRef T. Larsen, A. Bjarklev, D. Hermann, J. Broeng, "Optical devices based on liquid crystal photonic bandgap fibres", Opt. Exp. 11, 2589 (2003). CrossRef D. C. Zografopoulos, A. Asquini, E. E. Kriezis, A. d'Alessandro, R. Beccherelli, "Guided-wave liquid-crystal photonics", Lab Chip, 12, 3598 (2012). CrossRef F. Du, Y-Q. Lu, S-T. Wu, "Electrically tunable liquid-crystal photonic crystal fiber", Appl. Phys. Lett 85, 2181 (2004) CrossRef D. C. Zografopoulos, E. E. Kriezis, "Tunable Polarization Properties of Hybrid-Guiding Liquid-Crystal Photonic Crystal Fibers", J. Lightwave Technol. 27 (6), 773 (2009) CrossRef S. Ertman, M. Tefelska, M. Chychłowski, A. Rodriquez, D. Pysz, R. Buczyński, E. Nowinowski-Kruszelnicki, R. Dąbrowski, T. R. Woliński. "Index Guiding Photonic Liquid Crystal Fibers for Practical Applications", J. Lightwave Technol. 30, 1208 (2012). CrossRef D. Noordegraaf, L. Scolari, J. Laegsgaard, L. Rindorf, T. T. Alkeskjold, "Electrically and mechanically induced long period gratings in liquid crystal photonic bandgap fibers", Opt. Expr. 15, 7901 (2007) CrossRef M. M. Tefelska, M. S. Chychlowski, T. R. Wolinski, R. Dabrowski, W. Rejmer, E. Nowinowski-Kruszelnicki, P. Mergo, "Photonic Band Gap Fibers with Novel Chiral Nematic and Low-Birefringence Nematic Liquid Crystals", Mol. Cryst. Liq. Cryst. 558(1), 184 (2012). CrossRef S. Mathews, Y. Semenova, G. Farrell, "Electronic tunability of ferroelectric liquid crystal infiltrated photonic crystal fibre", Electronics Letters, 45(12), 617 (2009). CrossRef V. Chigrinov, H-S Kwok, H. Takada, H. Takatsu, "Photo-aligning by azo-dyes: Physics and applications", Liquid Crystals Today, 14:4, 1-15, (2005) CrossRef A. Siarkowska, M. Jóźwik, S. Ertman, T.R. Woliński, V.G. Chigrinov, "Photo-alignment of liquid crystals in micro capillaries with point-by-point irradiation", Opto-Electon. Rev. 22, 178 (2014); CrossRef D. Budaszewski, A. K. Srivastava, A. M. W. Tam, T. R. Woliński, V. G. Chigrinov, H-S. Kwok, "Photo-aligned ferroelectric liquid crystals in microchannels", Opt. Lett. 39, 16 (2014) CrossRef J-H Liou, T-H. Chang, T. Lin, Ch-P. Yu, "Reversible photo-induced long-period fiber gratings in photonic liquid crystal fibers", Opt. Expr. 19, (7), 6756, (2011) CrossRef T. T. Alkeskjold, J. Laegsgaard, A. Bjarklev, D. S. Hermann, J. Broeng, J. Li, S-T. Wu, "All-optical modulation in dye-doped nematic liquid crystal photonic bandgap fibers", Opt. Exp, 12 (24), 5857 (2004) CrossRef K. Ichimura, Y. Suzuki, T. Seki, A. Hosoki, K. Aoki, "Reversible change in alignment mode of nematic liquid crystals regulated photochemically by command surfaces modified with an azobenzene monolayer", Langmuir, 4, 1214 (1988) CrossRef http://www.beamco.com/Azobenzene-liquid-crystals DirectLink K. A. Rutkowska, K. Orzechowski, M. Sierakowski, "Wedge-cell technique as a simple and effective method for chromatic dispersion determination of liquid crystals", Phot. Lett, Poland, 8(2), 51 (2016). CrossRef L. Deng, H.-K. Liu, "Nonlinear optical limiting of the azo dye methyl-red doped nematic liquid crystalline films", Opt. Eng. 42, 2936-2941 (2003). CrossRef J. Si, J. Qiu, J. Guo, M. Wang, K. Hirao, "Photoinduced birefringence of azodye-doped materials by a femtosecond laser", Appl. Opt., 42, 7170-7173 (2008). CrossRef
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Shu-Qin, Lou, Wang Zhi, Ren Guo-Bin, and Jian Shui-Sheng. "Polarization-maintaining photonic crystal fibre." Chinese Physics 13, no. 7 (June 30, 2004): 1052–58. http://dx.doi.org/10.1088/1009-1963/13/7/015.

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Stevenson, M., C. Martelli, J. Canning, B. Ashton, and K. Lyytikainen. "Photonic crystal fibre optical attenuators." Electronics Letters 41, no. 21 (2005): 1167. http://dx.doi.org/10.1049/el:20052649.

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Skibina, Julia S., Rumen Iliew, Jens Bethge, Martin Bock, Dorit Fischer, Valentin I. Beloglasov, Reiner Wedell, and Günter Steinmeyer. "A chirped photonic-crystal fibre." Nature Photonics 2, no. 11 (October 12, 2008): 679–83. http://dx.doi.org/10.1038/nphoton.2008.203.

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Shahiruddin, M. Ashique Hassan, Anand Kumar, and Dharmendra K. Singh. "Structural and Behavioural Analysis of As2Se3, TeO2, SiC, SiO2 and Si3N4 for Photonic Application." Materials Science Forum 978 (February 2020): 360–68. http://dx.doi.org/10.4028/www.scientific.net/msf.978.360.

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The materials significantly influence the structural, optical and photoelectrical characteristic. Materials such as Arsenic selenide, Tellurite Glass, Silicon carbide, Silicon dioxide and Silicon nitride are investigated through finite element method. The models are established to analyse the structural behaviour of polarization preserving fibre of proposed materials. Photoelectric characteristic determines guided properties of photon particles. Refractive index of the materials influences the properties of photonic crystal fibre. A Polarization Splitter based hexagonal structure is proposed, where inner ring of cladding is in elliptical shape air holes and outer rings are in circular air holes. It provides highly negative dispersion, low confinement loss and high nonlinear coefficient between 1µm to 2µm wide wavelength ranges. The dispersion result shows -2000 db/km-nm at 1.55µm wavelength. Polarization beam splitters photonic crystal fiber characteristics of proposed materials are analysed with same structural parameters.
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Michie, Andrew, John Canning, Ian Bassett, John Haywood, Katja Digweed, Mattias Åslund, Brian Ashton, et al. "Spun elliptically birefringent photonic crystal fibre." Optics Express 15, no. 4 (February 19, 2007): 1811. http://dx.doi.org/10.1364/oe.15.001811.

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Abdur Razzak, S. M., Y. Namihira, and F. Begum. "Ultra-flattened dispersion photonic crystal fibre." Electronics Letters 43, no. 11 (2007): 615. http://dx.doi.org/10.1049/el:20070558.

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Russell, P., and R. Dettmer. "A neat idea [photonic crystal fibre]." IEE Review 47, no. 5 (September 1, 2001): 19–23. http://dx.doi.org/10.1049/ir:20010503.

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Dissertations / Theses on the topic "Photonic crystal fibre"

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Hedley, Thomas. "Modelling of photonic crystal fibre." Thesis, University of Bath, 2006. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.433962.

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Xiong, Chunle. "Nonlinearity in photonic crystal fibres." Thesis, University of Bath, 2008. https://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.512286.

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This thesis introduces the linear and nonlinear properties of photonic crystal fibre (PCF), describes the fabrication and characterisation of different PCFs, and demonstrates their applications to supercontinuum (SC) generation and single-photon sources. The linear properties of PCF include endlessly single-mode transmission, highly controllable dispersion and birefringence. These unique properties have made PCFs the best media to demonstrate all kinds of nonlinear effects such as self-phase modulation (SPM), cross-phase modulation (XPM), Raman effects, four-wave mixing and modulation instability (FWM and MI), and soliton effects. The combination of these nonlinear effects has led to impressive spectral broadening known as SC generation in PCFs. The intrinsic correlation of signal and idler photons from FWM has brought PCF to the application of single-photon generation. Four projects about SC generation were demonstrated. The first was visible continuum generation in a monolithic PCF device, which gave a compact, bright (-20 dBm/nm), flat and single-mode visible continuum source extending to short wavelength at 400 nm. The second was polarised SC generation in a highly bire-fringent PCF. A well linearly polarised continuum source spanning 450-1750 nm was achieved with >99% power kept in a single linear polarisation. This polarised continuum source was then applied to tuneable visible/UV generation in a BIBO crystal. The third was residual pump peak removal for SC generation in PCFs. The fourth was to design an all-fibre dual-wavelength pumping for spectrally localised continuum generation. Two projects about photon pair generation using FWM were then demonstrated. One was an all-fibre photon pair source designed in the telecom band for quantum communication. This source achieved >50% heralding efficiency which is the highest in fibre photon pair sources reported so far. Another one was to design birefringent PCFs for naturally narrow band photon pair generation in the Si SPAD high detection efficiency range. 0.122 nm bandwidth signal photons at 596.8 nm were generated through cross polarisation phase matched FWM in a weakly birefringent PCF pumped by a picosecond Ti:Sapphire laser at 705 nm in the normal dispersion regime.
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Wright, Fiona Cameron. "Highly polarised ytterbium doped photonic crystal fibre lasers." Thesis, University of Strathclyde, 2010. http://oleg.lib.strath.ac.uk:80/R/?func=dbin-jump-full&object_id=11869.

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Vukovic, Natasha Trivunac. "Optical properties of long photonic crystal fibre tapers." Thesis, University of Southampton, 2010. https://eprints.soton.ac.uk/301300/.

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In this thesis I investigate optical properties of metre - long tapers. Microstructured optical fibre technology has created new opportunities in a broad range of science and technology. In the work presented in this thesis I have combined the microstructured optical fibre technology with a novel tapering facility in order to develop new applications in the field of nonlinear optics. This thesis concerns development of a novel tapering facility, capable of achieving intermediate length (few tens of cm to ˜10 m) tapers. In comparison with systems presented to date, the novel system has the advantage of the increased control over the desired taper profile and enables efficient fabrication of intermediate taper lengths of potentially arbitrary profiles. During the fabrication the fibre diameter exhibits significant variations, due to various disturbances. A design of the feedback loop for the enhanced control of the output diameter variation is proposed. The system capabilities have been tested and demonstrated in many different examples. The presented results show that the variation of the fibre diameter is within ~1%, which offers possibilities to use the system in various applications. As an example of the intermediate taper length design and application, parabolic pulse generation was investigated. It represents a very attractive pulse shape, since it can propagate at high peak powers while avoiding wave-breaking effect and have a flat and broad spectrum, which could lead to pulse compression applications. This thesis presents numerical modelling and experimental results (restricted to a set of parameters of fibres available from ’stock’) concerning this phenomena. Supercontinuum generation is an area of research that has been attracting scientific interest over several decades. This thesis shows results of a study of supercontinuum generation in intermediate length tapered microstructured optical fibres. A simulation tool has been developed and the procedure to efficiently determine optimum conditions for improving flatness of the supercontinuum spectra has been proposed. The proposed method concerns a ’standard’ microstructured optical fibre, but generally can be extended to different fibre designs.
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Pearce, Gregory John. "Plane-wave methods for modelling photonic crystal fibre." Thesis, University of Bath, 2006. https://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.436875.

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Reeves, William Henry. "Photonic crystal fibre : the ultra-flattened dispersion regime." Thesis, University of Bath, 2003. https://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.275816.

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Williams, Gareth Owen Scott. "Photochemical kinetics and fluorescence spectroscopy in photonic crystal fibres." Thesis, University of Edinburgh, 2013. http://hdl.handle.net/1842/11747.

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This thesis describes work carried out to demonstrate the use of photonic crystal fibres for the study of photochemistry reaction kinetics and fluorescence spectroscopy. Photonic crystal fibre allows the guidance of light, in a well-defined mode, over long path lengths. When the fibre’s microstructure is filled with a sample solution this, therefore, provides a greatly increased measurement path length and greater light-sample interaction than is possible in conventional spectroscopic systems, leading to enhanced sensitivity whilst greatly reducing the required sample volumes. The use of photonic crystal fibre as a micro reaction chamber for carrying out photochemical reactions and the study of their kinetics was achieved through monitoring the photoisomerisation of two azobenzene-based dyes, Disperse Red 1 and Disperse Orange 1, using real-time UV/Vis absorption spectroscopy. Both the 488 nm excitation laser and the broadband light source for the measurements were co-coupled through the fibre, giving perfect overlap of both with the sample. The fibre used for the measurements was a hollow core kagomé-type fibre with a core diameter of 19μm, giving a sample volume of 2.8 nL cm-1. The 30 cm path-length of the fibre allowed the use of sample concentrations down to 5×10-6 M, over an order of magnitude lower than in a conventional 1cm cuvette, with a sample volume of 90 nl in the core, a reduction of five orders of magnitude over conventional measurements. The kinetics of the photoisomerisation from the trans to the cis isomers of the dyes and the thermally driven cis-to-trans isomerisation could be tracked on the ms timescale, using a grating spectrometer which recorded the entire absorption spectrum of the dye. The data were numerically fitted using a custom model to take into account the properties of the fibre system. This led to the calculation of rate constants for the isomerisation processes in good agreement with those previously measured for these dye systems in bulk solution. Furthermore, the measurement of the dyes in pentane, in which they are highly insoluble, could be achieved due to the low concentrations that could be used; such measurements have not previously been reported. For the study of photonic crystal fibre as a system for the excitation and collection of fluorescence, two types of fibre were used; the same kagomé hollow-core fibre used for the photochemistry absorption measurements and a suspended-core “Mercedes” fibre. This allowed for the excitation of fluorophores in two contrasting environments. In the kagomé fibre fluorophores in bulk solution are excited whilst, in the Mercedes fibre, only fluorophores either on or in close proximity to the silica core interact with the evanescent field of the excitation light. The Fluorescein fluorophore was used initially to measure the detection limits in both fibre types and limits of 2x10-11 M in the kagomé and 10-9 M in the Mercedes fibre were obtained. This equates to 106 molecules in the kagomé fibre, which displays the lower detection limit due to greater light-sample interaction. Two-photon excitation of the Fluorescein fluorophore was then carried out using a mode-locked Ti-Sapphire laser as an excitation source, demonstrating the ability of the fibre system to sustain two-photon excitation of a long (30 cm) path length. The two-photon measurements showed remarkable detection sensitivity allowing detection of fluorescence from 10-9 M solutions of Fluorescein, showing the potential of using PCF for two-photon based experiments which are of particular interest in fields such as photodynamic therapy. A further study was carried out, using the two fibre types, for measurement of the fluorescence lifetime of the Rhodamine B fluorophore. Unperturbed lifetimes could be measured in the fibres showing no interference from the fibre. The measurements confirmed, in reference to known lifetime values, that in the kagomé fibre the excited fluorophores are in the bulk solution with only a minor influence from surface effects, whilst in the Mercedes fibre all of the excited molecules experience interaction with the surface of the silica core. This, therefore, gives a method of locating the fluorophores with respect to the fibre surface and the ability to choose between measurement of bulk solution and long path-length evanescent field-induced fluorescence.
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Cordier, Martin. "Photon-pair generation in hollow-core photonic-crystal fiber." Thesis, Université Paris-Saclay (ComUE), 2019. http://www.theses.fr/2019SACLT024/document.

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Les sources de paires de photons sont un composant essentiel des technologies émergentes en information quantique. De nombreux travaux ont permis des avancées importantes utilisant des processus non linéaires d'ordre 2 dans les cristaux et les guides d'ondes, et d'ordre 3 dans les fibres. Les limitations viennent dans le premier cas, des pertes et en particulier des pertes de couplage avec les fibres optiques et dans le second cas, du bruit dû à l'effet Raman dont le spectre est très large dans les fibres de silice. Ce projet propose une nouvelle architecture basée sur des fibres à cristal photonique à coeur creux (FCPCC) que l'on peut remplir de liquide ou de gaz non linéaire. Cette configuration permet la génération paramétrique de paires de photons corrélés par mélange à quatre ondes sans l'inconvénient de la diffusion Raman. Cette technologie offre une large gamme de paramètres à explorer en s'appuyant sur les propriétés physiques et linéaires contrôlables des FCPCC et la possibilité de remplissage de ces fibres avec des fluides aux propriétés non-linéaires variées. En effet, par une conception judicieuse de la FCPCC et un choix approprié du liquide ou du gaz, il est possible de (i) contrôler la dispersion et la transmission pour générer des photons corrélés sur une large gamme spectrale avec la condition d'accord de phase la plus favorable, (ii) d'ajuster la taille de coeur de la fibre et/ou sa forme pour augmenter sa non-linéarité ou son efficacité de couplage avec d'autres fibres et (iii) de s'affranchir totalement de l'effet Raman si on utilise par exemple un gaz monoatomique, ou d'obtenir des raies Raman fines, aisément discriminables des raies paramétriques dans le cas d'un liquide
Photon pair sources are an essential component of the emerging quantum information technology. Despite ingenious proposals being explored in the recent years based on either second order nonlinear processes in crystals and waveguides or on third order processes in fibers, limitations remain, due to losses and specifically coupling losses in the former case and due to Raman generation in silica, giving rise to a broad spectrum noise in the latter. These limitations have been challenging to lift because of the limited alternative nonlinear materials that fulfil the conditions for the generation of bright and high fidelity photon pairs in integrable photonic structures. In the present project, we develop a new and versatile type of photonic architecture for quantum information applications that offers access to a variety of nonlinear optical materials that are micro-structured in optical fiber forms to generate photon pairs, without the drawback of Raman scattering and with a large design parameter-space. Indeed, with a careful design of the HCPCF along with the appropriate choice of fluid, one can (i) control the dispersion and the transmission to generate photons with the most favourable phase-matching condition over a large spectral range, (ii) adjust the fibre core size and/or shape to enhance nonlinearity or the coupling efficiency with other fibres, (iii) totally suppress the Raman effect in monoatomic gases for instance or have only narrow and separated Raman lines that can thus be easily separated from the useful parametric lines in liquids
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Couny, Francois. "Photonic solutions towards optical waveform synthesis." Thesis, University of Bath, 2008. https://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.478946.

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This thesis presents the development of photonic tools towards the realisation of an optical intensity waveform synthesiser and of an attosecond pulse synthesiser based on the generation and Fourier synthesis of a continuous-wave coherent spectral comb spanning more than 3 octaves (UV to mid-IR) by use of a gas-filled hollow core photonic crystal fibre (HC-PCF).
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Wu, Darran Kin Chun. "Photonic crystal fibre directional coupler : ultrasensitive refractive index sensing." Thesis, The University of Sydney, 2010. https://hdl.handle.net/2123/28912.

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We present a new photonic crystal fibre sensor for label—free refractive index sensing. The refractive index sensor is based on a directional coupler within a photonic crystal fibre. The analyte forms a waveguide in the fibre and it possesses strong modal overlap with the core waveguide, yielding strong light-sample interaction and extreme sensitivities (104 nm per refractive index units). The performance of the sensor is strongly dependent on the fraction of the mode that overlaps with the analyte, the coupling length, and the coupling wavelength. The device is operational for a broad range of refractive indices (An=0.02) above silica, but requires the analyte to be carefully filled over a timescale of several minutes via capillary forces. We present a calibrated temperature compensated dip sensor to minimise the effect of ambient temperature fluctuations, and imperfect holes in the photonic crystal fibre. We propose a fibre structure with an enhanced detection limit of 6.66x10'8 RIU, and demonstrate experimentally a measured detection limit of 1.77x10'7 RIU with commercial fibre.
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Books on the topic "Photonic crystal fibre"

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Bjarklev, Anders. Photonic Crystal Fibres. Boston, MA: Springer US, 2003.

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Bjarklev, Anders, Jes Broeng, and Araceli Sanchez Bjarklev. Photonic Crystal Fibres. Boston, MA: Springer US, 2003. http://dx.doi.org/10.1007/978-1-4615-0475-7.

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Jes, Broeng, and Sanchez Bjarklev Araceli, eds. Photonic crystal fibres. Boston: Kluwer Academic Publishers, 2003.

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Yi, Sang-bae. Kosŏngnŭng kwangtʻongsin ŭl wihan pʻotʻonik kʻŭrisŭtʻal kwangsŏmyu mit ŭngyong kisul kaebal =: Development of photonic crystal fibers and their application technology for high speed optical communication system. [Seoul]: Chŏngbo Tʻongsinbu, 2008.

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Yi, Sang-bae. Kosŏngnŭng kwangtʻongsin ŭl wihan pʻotʻonik kʻŭrisŭtʻal kwangsŏmyu mit ŭngyong kisul kaebal =: Development of photonic crystal fibers and their application technology for high speed optical communication system. [Seoul]: Chŏngbo Tʻongsinbu, 2008.

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Sakai, Junʼichi. Fotonikku kesshō faiba. 8th ed. Tōkyō: Koronasha, 2011.

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International Conference on Transparent Optical Networks (8th 2006 Nottingham, England). Proceedings of 2006 International Conference on Transparent Optical Networks: Collocated with ESPC, 5th European Symposium on Photonic Crystals ... [et al.]. Piscataway, NJ: IEEE, 2006.

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International, Conference on Transparent Optical Networks (7th 2005 Barcelona Spain). Proceedings of 2005 7th International Conference on Transparent Optical Networks: Collocated with 4th European Symposium on Photonic Crystals, ESPC 2005, July 4-5 ... [et al.]. Piscataway, NJ: Institute of Electrical and Electronics Engineers, 2005.

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International Conference on Transparent Optical Networks (7th 2005 Barcelona, Spain). Proceedings of 2005 7th International Conference on Transparent Optical Networks: Collocated with 4th European Symposium on Photonic Crystals, ESPC 2005, July 4-5 ... [et al.]. Piscataway, NJ: Institute of Electrical and Electronics Engineers, 2005.

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Guo, Ruyan. Photonic fiber and crystal devices: Advances in materials and innovations in device applications III : 2-5 August 2009, San Diego, California, United States. Edited by SPIE (Society). Bellingham, Wash: SPIE, 2009.

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Book chapters on the topic "Photonic crystal fibre"

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Tomar, Alankrit, Anushka Nagpal, Pooja Chauhan, and Ajeet Kumar. "Graduating Hexagonal Ring Porous-Core Photonic Crystal Fibre for Terahertz Communication." In Springer Proceedings in Physics, 899–901. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-15-9259-1_206.

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Nagpal, Anushka, Alankrit Tomar, Pooja Chauhan, and Ajeet Kumar. "Design and Analysis of Rectangular Porous-Core Photonic Crystal Fibre for Low-Loss Terahertz Communication." In Springer Proceedings in Physics, 903–5. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-15-9259-1_207.

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Bjarklev, Anders, Jes Broeng, and Araceli Sanchez Bjarklev. "Introduction." In Photonic Crystal Fibres, 1–17. Boston, MA: Springer US, 2003. http://dx.doi.org/10.1007/978-1-4615-0475-7_1.

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Bjarklev, Anders, Jes Broeng, and Araceli Sanchez Bjarklev. "Fundamentals of Photonic Crystal Waveguides." In Photonic Crystal Fibres, 19–51. Boston, MA: Springer US, 2003. http://dx.doi.org/10.1007/978-1-4615-0475-7_2.

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Bjarklev, Anders, Jes Broeng, and Araceli Sanchez Bjarklev. "Theory and Modelling of Microstructured Fibres." In Photonic Crystal Fibres, 53–113. Boston, MA: Springer US, 2003. http://dx.doi.org/10.1007/978-1-4615-0475-7_3.

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Bjarklev, Anders, Jes Broeng, and Araceli Sanchez Bjarklev. "Fabrication of Photonic Crystal Fibres." In Photonic Crystal Fibres, 115–30. Boston, MA: Springer US, 2003. http://dx.doi.org/10.1007/978-1-4615-0475-7_4.

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Bjarklev, Anders, Jes Broeng, and Araceli Sanchez Bjarklev. "Properties of High-Index Core Fibres." In Photonic Crystal Fibres, 131–59. Boston, MA: Springer US, 2003. http://dx.doi.org/10.1007/978-1-4615-0475-7_5.

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Bjarklev, Anders, Jes Broeng, and Araceli Sanchez Bjarklev. "Low-Index Core Fibres — The True Photonic Bandgap Approach." In Photonic Crystal Fibres, 161–218. Boston, MA: Springer US, 2003. http://dx.doi.org/10.1007/978-1-4615-0475-7_6.

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Bjarklev, Anders, Jes Broeng, and Araceli Sanchez Bjarklev. "Applications and Future Perspectives." In Photonic Crystal Fibres, 219–76. Boston, MA: Springer US, 2003. http://dx.doi.org/10.1007/978-1-4615-0475-7_7.

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Hu, Dora Juan Juan, and Aaron Ho-Pui Ho. "Plasmonic Photonic Crystal Fibers." In Advanced Fiber Sensing Technologies, 1–12. Singapore: Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-5507-7_1.

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Conference papers on the topic "Photonic crystal fibre"

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Delgado-Pinar, M., J. Cascante-Vindas, S. Torres-Peiro, T. Pinheiro-Ortega, E. Silvestre, A. Diez, J. L. Cruz, and M. V. Andres. "Fabrication of Polarizing Photonic Crystal Fibres and Photonic Crystal Fibre Tapers: Applications." In 2007 International Conference on Transparent Optical Networks. IEEE, 2007. http://dx.doi.org/10.1109/icton.2007.4296168.

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Gander, M. J. "Characterisation of photonic crystal fibre." In 13th International Conference on Optical Fiber Sensors. SPIE, 1999. http://dx.doi.org/10.1117/12.2302050.

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bahaddur, indira, P. C. Srikanth ponnathapur, and preeta sharan. "sensor based photonic crystal." In International Conference on Fibre Optics and Photonics. Washington, D.C.: OSA, 2016. http://dx.doi.org/10.1364/photonics.2016.tu4a.69.

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Knight, J. C., T. A. Birks, D. M. Atkin, and P. St J. Russell. "Two-Dimensional Photonic Crystal Material in Fibre form." In The European Conference on Lasers and Electro-Optics. Washington, D.C.: Optica Publishing Group, 1996. http://dx.doi.org/10.1364/cleo_europe.1996.ctug1.

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Abstract:
Photonic crystals are formed of periodically structured dielectric material, the pitch or period of the structure being of the order of the optical wavelength. A novel property of photonic crystal materials is they can be designed so as to exhibit photonic bandgaps. i.e. frequency ranges in which there are no propagating modes in the material.1 Some interesting consequences of such photonic band gaps occur for waves propagating out-of-plane in two-dimensionally periodic materials. One possibility is to fabricate low-loss waveguides which guide solely by Bragg reflection.2 This could be done by using a 2-D structure which is effectively infinite in the third dimension, and which exhibits a bandgap in its transmission characteristics for waves which have a certain wavevector component β=k. along the structure. By purposefully introducing some kind of defect which is embedded in the crystal structure we can create a spatially localized region where such a wave can exist - a "defect stale" appears in the band structure of the material. Light in this defect state would be unable to leak away from the defect through the crystal material, but would travel along the defect with propagation constant β.
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Fávero, F. C., S. M. M. Quintero, V. V. Silva, C. Martelli, Arthur M. B. Braga, Isabel C. S. Carvalho, and Roberth W. A. Llerena. "Photonic crystal fiber pressure sensor." In 20th International Conference on Optical Fibre Sensors, edited by Julian D. C. Jones. SPIE, 2009. http://dx.doi.org/10.1117/12.835629.

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Russell, P. S. J. "Photonic crystal fibres." In 11th International Conference on Integrated Optics and Optical Fibre Communications. 23rd European Conference on Optical Communications IOOC-ECOC97. IEE, 1997. http://dx.doi.org/10.1049/cp:19971366.

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Butsch, A., M. S. Kang, and P. St J. Russell. "Optoacoustic isolators in photonic crystal fibre." In 2013 IEEE Photonics Society Summer Topical Meeting Series. IEEE, 2013. http://dx.doi.org/10.1109/phosst.2013.6614499.

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Birks, T. A. "Photonic crystal fibre tapers and devices." In CLEO 2007. IEEE, 2007. http://dx.doi.org/10.1109/cleo.2007.4452404.

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Sojka, L., P. Jaworski, W. Gora, D. Furniss, A. Seddon, T. M. Benson, P. Mergo, S. Sujecki, and E. Beres-Pawlik. "Erbium doped photonic crystal fibre laser." In 2011 13th International Conference on Transparent Optical Networks (ICTON). IEEE, 2011. http://dx.doi.org/10.1109/icton.2011.5971118.

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Chychlowski, M. S., E. Nowinowski-Kruszelnicki, and T. R. Woliński. "Liquid crystal orientation control in photonic liquid crystal fibers." In 21st International Conference on Optical Fibre Sensors (OFS21). SPIE, 2011. http://dx.doi.org/10.1117/12.886044.

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Reports on the topic "Photonic crystal fibre"

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Hansen, Kim P. Erbium-doped Photonic Crystal Fiber. Fort Belvoir, VA: Defense Technical Information Center, May 2009. http://dx.doi.org/10.21236/ada524643.

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Sutton, Jacob O. FIBER LASER CONSTRUCTION AND THEORY INCLUDING FIBER BRAGG GRATINGS Photonic Crystal Fibers (PCFs) and applications of gas filled PCFs. Office of Scientific and Technical Information (OSTI), March 2017. http://dx.doi.org/10.2172/1346829.

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