Relevant bibliographies by topics / Holey fibres

Contents

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

Academic literature on the topic 'Holey fibres'

Author: Grafiati
Published: 4 June 2021
Last updated: 7 February 2022

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Journal articles on the topic "Holey fibres"

1

Monro, T. M., Y. D. West, D. W. Hewak, N. G. R. Broderick, and D. J. Richardson. "Chalcogenide holey fibres." Electronics Letters 36, no. 24 (2000): 1998. http://dx.doi.org/10.1049/el:20001394.

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Monro, T. M., D. J. Richardson, and P. J. Bennett. "Developing holey fibres for evanescent field devices." Electronics Letters 35, no. 14 (1999): 1188. http://dx.doi.org/10.1049/el:19990780.

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Faccio, D., A. Busacca, W. Belardi, V. Pruneri, P. G. Kazansky, T. M. Monro, D. J. Richardson, B. Grappe, M. Cooper, and C. N. Pannell. "Demonstration of thermal poling in holey fibres." Electronics Letters 37, no. 2 (2001): 107. http://dx.doi.org/10.1049/el:20010089.

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Monro, Tanya M., and David J. Richardson. "Holey optical fibres: Fundamental properties and device applications." Comptes Rendus Physique 4, no. 1 (January 2003): 175–86. http://dx.doi.org/10.1016/s1631-0705(03)00004-5.

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Wen-Wen, Ma, Li Shu-Guang, Yin Guo-Bing, Fu Bo, and Zhang Lei. "Study on pulse compression in tapered holey fibres." Chinese Physics B 19, no. 10 (October 2010): 104208. http://dx.doi.org/10.1088/1674-1056/19/10/104208.

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Kiang, K. M., K. Frampton, T. M. Monro, R. Moore, J. Tucknott, D. W. Hewak, D. J. Richardson, and H. N. Rutt. "Extruded singlemode non-silica glass holey optical fibres." Electronics Letters 38, no. 12 (2002): 546. http://dx.doi.org/10.1049/el:20020421.

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Bekker, E. V., T. M. Benson, P. Sewell, and L. A. Melnikov. "Modal Analysis of Holey Fibres with Convex and Non-Convex Polygon-Shaped Holes." Optical and Quantum Electronics 36, no. 8 (June 2004): 733–44. http://dx.doi.org/10.1023/b:oqel.0000039615.83853.52.

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Dritsas, I., T. Sun, and K. T. V. Grattan. "Stochastic optimization of conventional and holey double-clad fibres." Journal of Optics A: Pure and Applied Optics 9, no. 4 (March 26, 2007): 405–21. http://dx.doi.org/10.1088/1464-4258/9/4/016.

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Ghosh, R., A. Kumar, and J. P. Meunier. "Waveguiding properties of holey fibres and effective-V model." Electronics Letters 35, no. 21 (1999): 1873. http://dx.doi.org/10.1049/el:19991244.

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Arrospide, Eneko, Iñaki Bikandi, Igor Larrañaga, Xabier Cearsolo, Joseba Zubia, and Gaizka Durana. "Harnessing Deep-Hole Drilling to Fabricate Air-Structured Polymer Optical Fibres." Polymers 11, no. 11 (October 24, 2019): 1739. http://dx.doi.org/10.3390/polym11111739.

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The performance of a precisely controlled drilling technique is critical in the fabrication process of microstructured polymer optical fibres. For the creation of a holey preform, adequate drilling bits with large length-to-diameter ratios provide the ability of machining preforms with complex structures and large lengths in a relatively short time. In this work, we analysed different drilling bits and techniques that can be employed for the creation of such preforms, and key parameters characterising the quality of the drilled holes, such as surface rugosity, diameter deviation, coaxiality and cylindricity were measured. For this purpose, based on theoretical simulations, four rings of air holes arranged in a hexagonal pattern were drilled in the preforms with different drill bits, and the experimental results for the above mentioned parameters have been presented. Additionally, optical power distribution of the fabricated microstructured polymer optical fibres was theoretically calculated and experimentally measured.
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Dissertations / Theses on the topic "Holey fibres"

1

Belardi, Walter. "Holey optical fibres for high nonlinearity devices." Thesis, University of Southampton, 2003. https://eprints.soton.ac.uk/42430/.

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This thesis describes the development of a novel type of optical fibre, namely holey optical fibre (HF), for its specific incorporation in optical devices based on fibre nonlinearity. The development of the fabrication technique to produce such a fibre is discussed, and the fibres produced are characterized and used in device applications, proving the advantages of HF technology in the implementation of highly nonlinear optical devices, as well as showing its limitations. The initial fabrication problems that hindered the production of HFs with a high nonlinearity are identified and several strategies are adopted for its solution, including an experimental study of the HF drawing parameters, the invention of a novel holey fibre fabrication design based on an air clad HF jacket, the introduction of HF preform pressurization by means of a sealing technique and the use of a HF silica jacket. Thus long and robust HFs with a high nonlinearity can be reliably fabricated. In parallel with the development of the HF fabrication technique, the first applications of HF technology to high nonlinearity devices are investigated, ranging from a 2R data regenerator, based on only 3.3 m of a HF, to a Raman amplifier and a Brillouin laser based on long and robust HFs with low confinement losses, high birefringence and high anomalous dispersion at the operating wavelength. The negative impact of anomalous dispersion on the BER performances of a wavelength converter, and the limitations in terms of wavelength tuning range and phase matching of a high dispersion HF, directs our research towards the development of a HF with a relatively low normal dispersion (about −30 ps/nm − km) and an extremely high effective nonlinearity γ = 70 W). 15 meters of this HF were used to provide a demonstration of the first wavelength converter based on FWM, which allows error free-penalty free wavelength conversion of 10 Gbit/s data signals over a 10 nm bandwidth. As shown by these experiments one major issue of our HFs is the high polarization mode dispersion. We suggest a possible route to the solution of this problem, by systematically investigating the feasibility of a spun HF. We first use some hollow tubes to study the effects of preform spinning on the spin pitch, on a central hole and on an off-centre hole. Those preliminary results lead us towards the successful fabrication of the first spun HF, which demonstrates the applicability of the preform spinning technique to HF technology
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Baggett, Joanne Claire. "Bending losses in large mode area holey fibres." Thesis, University of Southampton, 2004. https://eprints.soton.ac.uk/65504/.

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The aims of the study presented here are to develop methods of accurately predicting bend loss in arbitrary index fibres, to use these techniques to explore the potential offered by holey fibres in the large-mode-area, single-mode regime, and to place their performance in context against conventional step-index fibres. In the study presented here, numerical and experimental techniques have been developed that are capable of accurately evaluating the bending losses, the fundamental mode area and the modedness of holey fibres. Note that these techniques are also applicable to conventional solid fibres, which is essential in order to form accurate comparisons. These techniques are applied here to the problem of understanding the bending losses of large-mode-area holey fibres and are successfully used to assess the practical limits that bend loss imposes on large-mode-area holey fibres designed for single-mode operation. These properties are also evaluated for a range of equivalent conventional fibres, the results of which are used to benchmark the potential of holey fibre technology in this regime. The results of this study reveal that the performance of large-mode-area holey and conventional fibres at any given wavelength are similar, and that holey fibres offer advantages for broadband applications. Methods of improving bend loss in holey fibres are also investigated, and it is shown that more complex hole arrangements can be used to improve bend loss in a holey fibre.
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Yusoff, Zulfadzli. "Applications of highly nonlinear holey fibres in optical communications." Thesis, University of Southampton, 2004. https://eprints.soton.ac.uk/15465/.

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Holey fibre (HF) is a new type of fibre that uses rings of air holes around a solid core toconfine light. A small core HF with a high air fill fraction can have effective nonlinearitycoefficient of around 10-100 times greater than conventional fibre. Apart from that, its dispersion value is also highly tailorable simply by changing the structural dimensions. These two characteristics make HFs attractive as a nonlinear medium. This thesis reports the first demonstration of various nonlinear fibre devices based on HFs. Thediscrete Raman amplifier is an attractive option to extend optical transmission systems into the optical communication bands outside the conventional erbium doped fibre amplifier (EDFA). We demonstrated a high gain discrete Raman L-band amplifier using a relatively short highly nonlinear HF. We also demonstrated a high extinction ratio, SRS based, intensity modulator using the same HF. Stimulated Brillouin scattering (SBS) is the most dominant nonlinear effect in optical fibres for a narrow linewidth system. SBS based devices could have an extremely low threshold value if highly nonlinear HF were to be used. We demonstrated a HF based Brillouin laser with a high experimentally observed threshold value. This is found to be mainly due to reduction in the effective gain coefficient caused by structural non-uniformity along the HF length. This has motivated us to study the relation between HF structural parameters and the Brillouin characteristics. This was done using two techniques: Brillouin optical time domain reflectometry (BOTDR) and the pump probe technique. A spectrally sliced pulse source is a cost effective solution to a multiwavelength transmitter. We demonstrated a HF based spectrally sliced pulse source. This was done by utilizing self phase modulation (SPM) to generate a supercontinuum in a normally dispersive HF before slicing the spectrum using an arrayed waveguide grating. Wavelength conversion is an important enabling technology for complex future optical networks. We showed in two separate experiments that by using a short length highly nonlinear HF, efficient wavelength conversion based on XPM as well as FWM can be achieved. A nonlinear thresholding device can improve the contrast of a pattern-recognition signature in an OCDMA system. Using a short highly nonlinear HF, we demonstrated a nonlinear thresholder for use in a super-structured fibre Bragg grating (SSFBG) based OCDMA receiver.
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Issa, Nader. "Modes and propagation in microstructured optical fibres." University of Sydney. Physics and Optical Fibre Technology Centre, 2005. http://hdl.handle.net/2123/613.

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Microstructured optical fibres (MOFs), also commonly called photonic crystal fibres or holey fibres, describe a type of optical fibre in which continuous channels of (typically) air run their entire length. These `holes' serve to both confine electromagnetic waves within the core of the fibre and to tailor its transmission properties. In order to understand and quantify both of these functions, a new computational algorithm was developed and implemented. It solves for the eigenvalues of Maxwell's wave equations in the two-dimensional waveguide cross-section, with radiating boundary conditions imposed outside the microstructure. This yields the leaky modes supported by the fibre. The boundary conditions are achieved exactly using a novel refinement scheme called the Adjustable Boundary Condition (ABC) method. Two implementations are programmed and their computational efficiencies are compared. Both use an azimuthal Fourier decomposition, but radially, a finite difference scheme is shown to be more efficient than a basis function expansion. The properties of the ABC method are then predicted theoretically using an original approach. It shows that the method is highly efficient, robust, automated and generally applicable to any implementation or to other radiating problems. A theoretical framework for the properties of modes in MOFs is also presented. It includes the use of the Bloch-Floquet theorem to provide a simpler and more efficient way to exploit microstructure symmetry. A new, but brief study of the modal birefringence properties in straight and spun fibres is also included. The theoretical and numerical tools are then applied to the study of polymer MOFs. Three types of fibres are numerically studied, fabricated and characterised. Each is of contemporary interest. Firstly, fabrication of the first MOFs with uniformly oriented elliptical holes is presented. A high degree of hole ellipticity is achieved using a simple technique relying on hole deformation during fibre draw. Both form and stress-optic birefringence are characterized over a broad scaled-wavelength range, which shows excellent agreement with numerical modelling. Secondly, an analysis of leaky modes in real air core MOFs, fabricated specifically for photonic band gap guidance, is then used to identify alternative guiding mechanisms. The supported leaky modes exhibit properties closely matching a simple hollow waveguide, weakly influenced by the surrounding microstructure. The analysis gives a quantitative determination of the wavelength dependent confinement loss of these modes and illustrates a mechanism not photonic band gap in origin by which colouration can be observed in such fibres. Finally, highly multimode MOFs (also called `air-clad' fibres) that have much wider light acceptance angles than conventional fibres are studied. An original and accurate method is presented for determining the numerical aperture of such fibres using leaky modes. The dependence on length, wavelength and various microstructure dimensions are evaluated for the first time for a class of fibres. These results show excellent agreement with published measurements on similar fibres and verify that bridge thicknesses much smaller than the wavelength are required for exceptionally high numerical apertures. The influence of multiple layers of holes on the numerical aperture and capture efficiency are then presented. It shows that a substantial increase in both these parameters can be achieved for some bridge thicknesses. Simple heuristic expressions for these quantities are given, which are based on the physical insight provided by the full numerical models. The work is then supported by the first fabrication attempts of large-core polymer MOFs with thin supporting bridges. These fibres exhibit relatively high numerical apertures and show good agreement with theoretical expectations over a very wide scaled-wavelength range.
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Kuhlmey, Boris T. "Theoretical and Numerical Investigation of the Physics of Microstructured Optical Fibres." University of Sydney and Universite Aix-Marseille III. School of Physics, 2003. http://hdl.handle.net/2123/560.

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We describe the theory and implementation of a multipole method for calculating the modes of microstructured optical fibers (MOFs). We develop tools for exploiting results obtained through the multipole method, including a discrete Bloch transform. Using the multipole method, we study in detail the physical nature of solid core MOF modes, and establish a distinction between localized defect modes and extended modes. Defect modes, including the fundamental mode, can undergo a localization transition we identify with the mode�s cutoff. We study numerically and theoretically the cutoff of the fundamental and the second mode extensively, and establish a cutoff diagram enabling us to predict with accuracy MOF properties, even for exotic MOF geometries. We study MOF dispersion and loss properties and develop unconventional MOF designs with low losses and ultra-flattened near-zero dispersion on a wide wavelength range. Using the cutoff-diagram we explain properties of these MOF designs.
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Kim, Jeong I. "Analysis and Applications of Microstructure and Holey Optical Fibers." Diss., Virginia Tech, 2003. http://hdl.handle.net/10919/29089.

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Microstructure and photonic crystal fibers with periodic as well as random refractive-index distributions are investigated. Two cases corresponding to fibers with one-dimensional (1D) radial index distributions and two-dimensional (2D) transverse index distributions are considered. For 1D geometries with an arbitrary number of cladding layers, exact analytical solutions of guided modes are obtained using a matrix approach. In this part, for random index distributions, the average transmission properties are calculated and the influence of glass/air ratio on these properties is assessed. Important transmission properties of the fundamental mode, including normalized propagation constant, chromatic dispersion, field distributions, and effective area, are evaluated. For 2D geometries, the numerical techniques, FDTD (Finite-Difference Time-Domain) method and FDM (Finite Difference Method), are utilized. First, structures with periodic index distributions are examined. The investigation is then extended to microstructure optical fibers with random index distributions. Design of 2D microstructure fibers with random air-hole distributions is undertaken with the aim of achieving single-mode guiding property and small effective area. The former is a unique feature of the holey fiber with periodic air-hole arrangement and the latter is a suitable property for nonlinear fiber devices. Measurements of holey fibers with random air-hole distributions constitute an important experimental task of this research. Using a section of a holey fiber fabricated in the draw tower facility at Virginia Tech, measurements of transmission spectra and fiber attenuation are performed. Also, test results for far-field pattern measurements are presented. Another objective of this dissertation is to explore new applications for holey fibers with random or periodic hole distributions. In the course of measuring the holey fibers, it was noticed that robust temperature-insensitive pressure sensors can be made with these fibers. This offers an opportunity for new low-cost and reliable pressure fiber-optic sensors. Incorporating gratings into holey fibers in conjunction with the possibility of dynamic tuning offers desirable characteristics with potential applications in communications and sensing. Injecting gases or liquids in holey fibers with gratings changes their transmission characteristics. These changes may be exploited in designing tunable optical filters for communication applications or making gas/liquid sensor devices.
Ph. D.
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Chen, Yong. "Hole control in photonic crystal fibres." Thesis, University of Bath, 2014. https://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.616649.

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Photonic crystal fibres (PCFs) are special fibres with air holes which run along the whole fibre length. These holes not only determine the fibres' unique properties, but also provide a new degree of freedom for fibre modications. In this thesis, we focus on hole control in PCFs from two perspectives: during their fabrication and after they have been made. We found for the first time that the direct information of viscosity was not necessary for description of the fibre drawing process. This conclusion matched our experimental results without recourse to any adjustable fitting parameters. By post-processing of PCFs, which modifies the cladding and core structure and shape, we have achieved a series of novel devices for both linear and nonlinear applications. We have demonstrated fibre devices with cores resembling Young's double slits that have good performance in terms of compatibility and intensity enhancement for a specific application in fibre optic spectrometers. The bulk of this thesis reports on higher-order modes and their nonlinear applications. We achieved all-fibre, low loss and broadband mode converters in highly nonlinear PCFs (HNPCFs) which converted the fundamental mode (LP01) to a higher-order mode (LP02), which can then be converted back if necessary. This higher-order mode has been used for supercontinuum (SC) generation and four wave mixing (FWM) at wavelengths unobtainable for the fundamental mode. This is achieved by utilising the profound dispersion properties of the higher-order mode. We also demonstrated another kind of mode conversion: from the fundamental mode to a Bessel-like beam or its Fourier transform version, an annular beam. Three different methods were implemented experimentally to achieve this non-diffractive, self-healing beam.
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Kominsky, Daniel. "Development of Random Hole Optical Fiber and Crucible Technique Optical Fibers." Diss., Virginia Tech, 2005. http://hdl.handle.net/10919/28949.

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This dissertation reports the development of two new categories of optical fibers. These are the Random Hole Optical Fiber (RHOF) and the Crucible Technique Hybrid Fiber (CTF). The RHOF is a new class of microstructure fiber which possesses air holes which vary in diameter and location along the length of the fiber. Unlike all prior microstructure fibers, these RHOF do not have continuous air holes which extend throughout the fiber. The CTF is a method for incorporating glasses with vastly differing thermal properties into a single optical fiber. Each of these two classes of fiber brings a new set of optical characteristics into being. The RHOF exhibit many of the same guidance properties as the previously researched microstructure fibers, such as reduced mode counts in a large area core. CTF fibers show great promise for integrating core materials with extremely high levels of nonlinearity or gain. The initial goal of this work was to combine the two techniques to form a fiber with exceedingly high efficiency of nonlinear interactions. Numerous methods have been endeavored in the attempt to achieve the fabrication of the RHOF. Some of the methods include the use of sol-gel glass, microbubbles, various silica powders, and silica powders with the incorporation of gas producing agents. Through careful balancing of the competing forces of surface tension and internal pressure it has been possible to produce an optical fiber which guides light successfully. The optical loss of these fibers depends strongly on the geometrical arrangement of the air holes. Fibers with a higher number of smaller holes possess a markedly lower attenuation. RHOF also possess, to at least some degree the reduced mode number which has been extensively reported in the past for ordered hole fibers. Remarkably, the RHOF are also inherently pressure sensitive. When force is applied to an RHOF either isotropically, or on an axis perpendicular to the length of the fiber, a wavelength dependent loss is observed. This loss does not come with a corresponding response to temperature, rendering the RHOF highly anomalous in the area of fiber optic sensing techniques. Furthermore an ordered hole fiber was also tested to determine that this was not merely a hitherto undisclosed property of all microstructure fibers. Crucible technique fibers have also been fabricated by constructing an extremely thick walled silica tube, which is sealed at the bottom. A piece of the glass that is desired for the core (such as Lead Indium Phosphate) is inserted into the hole which is in the center of the tube. The preform is then drawn on an fiber draw tower, resulting in a fiber with a core consisting of a material which has a coefficient of thermal expansion (CTE) or a melting temperature (Tm) which is not commonly compatible with those of silica.
Ph. D.
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Alfeeli, Bassam. "Ionizing Radiation Resistance of Random Hole Optical Fiber for Nuclear Instrumentation and Control Applications." Thesis, Virginia Tech, 2009. http://hdl.handle.net/10919/32661.

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Random hole optical fibers (RHOF) offer advantages over other types of microstructured optical fibers (MOFs). They are inexpensive and easy-to-make when compared to the high cost of ordered hole MOFs. They also have unique characteristics since they contain open and closed holes. The open holes contain ambient air under normal conditions and the closed holes contain residual gases from the fabrication process at certain pressure. The objective of this research work was to investigate the radiation resistance of Random Hole Optical Fibers (RHOF) for possible use as both sensing element and data transmission medium in nuclear reactor instrumentation and control applications. This work is motivated by the demand for efficient, cost effective, and safe operation of nuclear power plants, which accounts for more than 14% of the worldâ s electricity production. This work has studied the effect of gamma irradiation on RHOF fibers by comparing their performance to that of standard solid telecommunication fibers and commercially available specialty solid fiber designed to be radiations hardened fiber. The fibers were evaluated at different absorbed dose levels: 12 mGy(Si), 350 mGy(Si), and 7200 Gy(Si) by measuring their radiation induced absorption (RIA) on-line. In the low dose test, the maximum RIA measured in untreated RHOF was approximately 8 dB while the RIA in the untreated MMF fibers reached a maximum at about 28 dB. In the high dose test, the maximum RIA measured in untreated RHOF was 36 dB while RIA in the methanol washed RHOF was only 9 dB. RHOF also demonstrated superior radiation damage recovery time over all of the other fibers tested. Based on the experimental evaluations, it was deduced that RHOFs used in this work are resistant to gamma radiation. and recover from radiation damage at a faster rate compared to other fibers tested. The radiation induced absorption (RIA) at the 1550 nm window in the RHOF fibers could be attributed to the OH absorption band tail. However, the existence of other mechanisms responsible for RIA is also postulated. Some of these mechanisms include bulk and surface defects which are related to the fabrication process and the influence of the gases confined within the RHOF microstructure. Gamma radiation resistance of RHOFs can be attributed to the lack of dopants and also possibly the inherent OH and nitrogen content. The behavior of thermally annealed RHOF and their fast recovery is in favor of this hypothesis.
Master of Science
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Leong, Julie Yeen Yeen. "Fabrication and applications of lead-silicate glass holey fibre for 1-1.5 microns : nonlinearity and dispersion trade offs." Thesis, University of Southampton, 2007. https://eprints.soton.ac.uk/50197/.

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This thesis describes the development of novel microstructured optical fibres (MOFs), namely holey optical fibres (HFs), based on a commercial highly nonlinear non-silica glass: By taking the advantages of the zero dispersion of the HFs at 1 μm and 1.55 μm, the SC studies are carried out using these HFs (WW HFs and SEST HFs). Both of the fibre SC studies combined experimental and numerical results, and the simulations and experiments were in qualitative agreement. We observed a spectrum spanning over 1000nm by using just ~98 pJ energy pulses in a 60cm piece of the WW HF. This demonstrated the advantage of SG-HFs in terms of compact devices and low power requirements.
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Books on the topic "Holey fibres"

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Hyer, M. W. Innovative design of composite structures: The use of curvilinear fiber format to improve buckling resistance of composite plates with central circular holes. Blacksburg, VA: College of Engineering, Virginia Polytechnic Institute and State University, 1990.

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Hyer, M. W. Innovative design of composite structures: The use of curvilinear fiber format to improve buckling resistance of composite plates with central circular holes. Blacksburg, VA: College of Engineering, Virginia Polytechnic Institute and State University, 1990.

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Moss, A. C. Fracture characteristics of carbon and aramis unidirectional composites in interlaminar shear and open hole tensile tests. Amsterdam: National Aerospace Laboratory, 1986.

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Hyer, M. W. Innovative design of composite structures: Further studies in the use of a curvilinear fiber format to improve structural efficiency. Blacksburg, Va: College of Engineering, Virginia Polytechnic Institute and State University, 1988.

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Hyer, M. W. Innovative design of composite structures: Design, manufacturing, and testing of plates utilitzing [sic] curvilinear fiber trajectories : final report for NASA. Blacksburg, VA: College of Engineering, Virginia Polytechnic Institute and State University ; Hampton, VA, 1994.

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Hyer, M. W. Innovative design of composite structures: Axisymmetric deformations of unsymmetrically laminated cylinders loaded in axial compression : semiannual status report. Blacksburg, Va: College of Engineering, Virginia Polytechnic Institute and State University, 1990.

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Hyer, M. W. Innovative design of composite structures: The use of curvilinear fiber format in composite structure design. Blacksburg, VA: College of Engineering, Virginia Polytechnic Institute and State University, 1990.

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United States. National Aeronautics and Space Administration. Scientific and Technical Information Division., ed. Compression behavior of graphite-thermoplastic and graphite-epoxy panels with circular holes or impact damage. [Washington, DC]: National Aeronautics and Space Administration, Office of Management, Scientific and Technical Information Division, 1991.

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Book chapters on the topic "Holey fibres"

1

Pickrell, Gary R., Evgenya S. Smirnova, Stanton L. De Haven, and Robert S. Rogowski. "Hybrid Ordered Hole-Random Hole Optical Fibers." In Advances in Science and Technology, 2598–607. Stafa: Trans Tech Publications Ltd., 2006. http://dx.doi.org/10.4028/3-908158-01-x.2598.

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Srinivasababu, Nadendla. "Tensile Behaviour of Centrally Holed Pineapple Fibre Reinforced Vinyl Ester Composites." In Pineapple Leaf Fibers, 235–47. Singapore: Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-1416-6_11.

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Pickrell, Gary R., and Navin J. Manjooran. "Incorporation of Biological Agents in Random Hole Optical Fibers." In Ceramic Transactions Series, 39–46. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2012. http://dx.doi.org/10.1002/9781118407974.ch5.

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Nasaduke, I., and G. A. Peyman. "Intraocular Effects of Rabbit Fibrin Sealant Used in Experimental Retinal Holes and Detachments." In Fibrin Sealant in Operative Medicine, 74–84. Berlin, Heidelberg: Springer Berlin Heidelberg, 1986. http://dx.doi.org/10.1007/978-3-642-71391-0_9.

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Leong, Julie Y. Y., Periklis Petropoulos, Heike Ebendorff-Heidepriem, Symeon Asimakis, Roger C. Moore, Ken Frampton, Vittoria Finazzi, et al. "Development of Highly Nonlinear Extruded Lead Silicate Holey Fibers with Novel Dispersive Properties." In Ceramic Transactions Series, 1–9. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2012. http://dx.doi.org/10.1002/9781118407974.ch1.

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Feng, Xian, Joanne C. Flanagan, Ken E. Frampton, Periklis Petropoulos, Nicholas M. White, Jonathan H. V. Price, Wei H. Loh, Harvey N. Rutt, and David J. Richardson. "Developing Single-Mode Tellurite Glass Holey Fiber for Infrared Nonlinear Applications." In Advances in Science and Technology, 108–17. Stafa: Trans Tech Publications Ltd., 2008. http://dx.doi.org/10.4028/3-908158-12-5.108.

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Woliński, T. R., W. J. Bock, R. Dabrowski, A. Jarmolik, J. Parka, and A. Zackiewicz. "Stress Effects in Highly Birefringent Optical Fibers with Liquid Crystalline Side Holes." In Laser in Forschung und Technik / Laser in Research and Engineering, 614–17. Berlin, Heidelberg: Springer Berlin Heidelberg, 1996. http://dx.doi.org/10.1007/978-3-642-80263-8_127.

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Wang, Ke, Brian Scott, Neal Pfeiffenberger, and Gary Pickrell. "Random-Hole Optical Fiber Sensors and Their Sensing Applications." In Ceramic Transactions Series, 129–34. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2012. http://dx.doi.org/10.1002/9781118511428.ch14.

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Manjooran, Navin J., and Gary R. Pickrell. "Incorporation and Characterization of Carbon Nano Tubes in Random Hole Optical Fibers." In Ceramic Nanomaterials and Nanotechnologies IV, 87–94. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2012. http://dx.doi.org/10.1002/9781118408049.ch9.

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Chen, Bin, Xiang He Peng, and Jing Hong Fan. "Round-Hole-Fiber Distribution in Hydrophilidae Cuticle and Biomimetic Research." In Advanced Biomaterials VI, 433–36. Stafa: Trans Tech Publications Ltd., 2005. http://dx.doi.org/10.4028/0-87849-967-9.433.

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Conference papers on the topic "Holey fibres"

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Love, John, and Celine Durniak. "Bound modes of holey optical fibres." In 2006 Australian Conference on Optical Fibre Technology (ACOFT). IEEE, 2006. http://dx.doi.org/10.1109/acoft.2006.4519213.

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Monro, Tanya M. "Exploring the optical properties of holey fibres." In International school of quantum electronics: Nanoscale linear and nonlinear optics. AIP, 2001. http://dx.doi.org/10.1063/1.1372722.

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Faccio, D., A. Busacca, V. Pruneri, P. G. Kazansky, T. M. Monro, W. Belardi, D. J. Richardson, B. Grappe, M. Cooper, and C. N. Pannell. "Experimental study of thermal poling in holey fibres." In Nonlinear Guided Waves and Their Applications. Washington, D.C.: OSA, 2001. http://dx.doi.org/10.1364/nlgw.2001.md3.

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Faccio, D., A. Busacca, V. Pruneri, P. G. Kazansky, T. M. Monro, W. Belardi, D. J. Richardson, B. Grappe, M. Cooper, and C. N. Pannell. "First demonstration of thermal poling in holey fibres." In CLEO 2001. Technical Digest. Summaries of papers presented at the Conference on Lasers and Electro-Optics. Postconference Technical Digest. IEEE, 2001. http://dx.doi.org/10.1109/cleo.2001.948203.

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Yan, C., X. D. Wang, L. Ye, K. Lyytikainen, and J. Canning. "Mechanical failure of holey optical fibres in tension." In 2005 IEEE LEOS Annual Meeting. IEEE, 2005. http://dx.doi.org/10.1109/leos.2005.1548104.

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Leproux, P., V. Couderc, P. Roy, C. Lesvigne, A. Roy, V. Tombelaine, J. L. Auguste, and J. M. Blondy. "Original holey fibres and nonlinear schemes for supercontinuum generation." In International Congress on Optics and Optoelectronics, edited by Kyriacos Kalli. SPIE, 2007. http://dx.doi.org/10.1117/12.723392.

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Kazunori Mukasa, Periklis Petropoulos, David J. Richardson, Marco N. Petrovich, Francesco Poletti, Andrew Webb, John Hayes, et al. "Novel fabrication method of highly-nonlinear silica holey fibres." In 2006 Conference on Lasers & Electro-Optics/Quantum Electronics and Laser Science Conference (CLEO/QELS). IEEE, 2006. http://dx.doi.org/10.1109/cleo.2006.4627694.

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Poletti, F., A. Camerlingo, P. Petropoulos, and D. J. Richardson. "Dispersion management in highly nonlinear, carbon disulfide filled holey fibres." In 2008 IEEE/LEOS Winter Topical Meeting Series. IEEE, 2008. http://dx.doi.org/10.1109/leoswt.2008.4444447.

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Leproux, P., C. Buy-Lesvigne, V. Tombelaine, V. Couderc, J. L. Auguste, J. M. Blondy, G. Mélin, K. Schuster, J. Kobelke, and H. Bartelt. "Methods for visible supercontinuum generation in doped/undoped holey fibres." In Photonics Europe, edited by Kyriacos Kalli and Waclaw Urbanczyk. SPIE, 2008. http://dx.doi.org/10.1117/12.781337.

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Monro, T. M., J. C. Baggett, K. Furusawa, and D. J. Richardson. "Comparative study of bend loss in large mode holey and conventional fibres." In CLEO 2001. Technical Digest. Summaries of papers presented at the Conference on Lasers and Electro-Optics. Postconference Technical Digest. IEEE, 2001. http://dx.doi.org/10.1109/cleo.2001.947778.

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Reports on the topic "Holey fibres"

1

Peyghambarian, Nasser, Robert A. Norwood, and Andre Persoons. In-Fiber Magneto-Optic Devices Based on Ultrahigh Verdet Constant Organic Materials and Holey Fibers. Fort Belvoir, VA: Defense Technical Information Center, February 2009. http://dx.doi.org/10.21236/ada495425.

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Chiu, Wilson K., Jason M. Maguire, and Marilyn J. Berliner. Phase Sensitivity of Conventional Single-Mode, PANDA, and Holey Optical Fibers: A Comparison Study. Fort Belvoir, VA: Defense Technical Information Center, September 2002. http://dx.doi.org/10.21236/ada408460.

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Klingsporn, P. E. A precise technique for measurement of optical-fiber hole concentricity in the ferrule of an optical connector. Office of Scientific and Technical Information (OSTI), December 1996. http://dx.doi.org/10.2172/435302.

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