Recent Progress And Novel Applications Of Photonic Crystal Fibers

Arismar Cerqueira S.

dc.creator	Arismar Cerqueira S.
dc.date	2010
dc.date	2015-06-26T12:40:57Z
dc.date	2015-11-26T15:25:57Z
dc.date	2015-06-26T12:40:57Z
dc.date	2015-11-26T15:25:57Z
dc.date.accessioned	2018-03-28T22:34:42Z
dc.date.available	2018-03-28T22:34:42Z
dc.identifier
dc.identifier	Reports On Progress In Physics. , v. 73, n. 2, p. - , 2010.
dc.identifier	344885
dc.identifier	10.1088/0034-4885/73/2/024401
dc.identifier	http://www.scopus.com/inward/record.url?eid=2-s2.0-76649097059&partnerID=40&md5=a8d40d60d7775d37c2ac4bba8c271c79
dc.identifier	http://www.repositorio.unicamp.br/handle/REPOSIP/91395
dc.identifier	http://repositorio.unicamp.br/jspui/handle/REPOSIP/91395
dc.identifier	2-s2.0-76649097059
dc.identifier.uri	http://repositorioslatinoamericanos.uchile.cl/handle/2250/1261021
dc.description	Photonic crystal fibers present a wavelength-scale periodic microstructure running along their length. Their core and two-dimensional photonic crystal might be based on varied geometries and materials, enabling light guidance due to different propagation mechanisms in an extremely large wavelength range, extending to the terahertz regions. As a result, these fibers have revolutionized the optical fiber technology by means of creating new degrees of freedom in the fiber design, fabrication and applicability. This report aims to provide a detailed statement on the recent progress and novel potential applications of photonic crystal fibers. © 2010 IOP Publishing Ltd.
dc.description	73
dc.description	2
dc.description
dc.description
dc.description	Russell, P.S.J., A neat idea (2001) IEE Rev., 47, pp. 19-23
dc.description	Russell, P.S.J., Photonic crystal fibers (2003) Science, 299, pp. 358-362
dc.description	Knight, J., Birks, T., Russell, P.S.J., Atkin, D., All-silica single-mode fiber with photonic crystal cladding (1996) Opt. Lett., 21, pp. 1547-1549
dc.description	Knight, J., Photonic crystal fibres (2003) Nature, 424, pp. 847-851
dc.description	Kertész, A.E., Photonic band gap materials in butterfly scales: A possible source of 'blueprints' (2008) Mater. Sci. Eng., 149, pp. 259-265
dc.description	Arismar Cerqueira, S., Luan, F., Cordeiro, C.M.B., George, A.K., Knight, J.C., Hybrid photonic crystal fiber (2006) Opt. Express, 14, pp. 926-931
dc.description	Wiederhecker, G.S., Cordeiro, C.M.B., Couny, F., Benabid, F., Maier, S.A., Knight, J.C., De Brito Cruz, C.H., Fragnito, H.L., Field enhancement within an optical fibre with a subwavelength air core (2007) Nature Photon., 1, pp. 115-118
dc.description	Correa, R.A., Knight, J., Novel process eases production of hollow-core fiber (2008) Laser Focus World, 45, pp. 67-69
dc.description	Arismar Cerqueira, S., Nobrega, K.Z., Hernandez-Figueroa, H.E., Di Pasquale, F., PCFDT: An accurate and friendly photonic crystal fiber design tool (2008) Optik Int. J. Light Electron. Opt., 119, pp. 723-732
dc.description	Koshiba, M., Full-vector analysis of photonic crystal fibers using the finite element method (2002) IEICE Trans. Electron., 85, pp. 881-888
dc.description	Ferrando, A., Silvestre, E., Miret, J.J., Andres, P., Vector description of higher-order modes in photonic crystal fibers (2000) J. Opt. Soc. Am., 17, pp. 1333-1340
dc.description	Birks, T.A., Mogilevtsev, D., Russell, P.S.J., Localized function method for modeling defect modes in 2-d photonic crystals (1999) J. Lightwave Technol., 17, pp. 2078-2081
dc.description	Zhu, Z., Brown, T.G., Full-vectorial finite-difference analysis of microstructured optical fibers (2002) Opt. Express, 10, pp. 854-864
dc.description	Issa, N.A., Poladian, L., Vector wave expansion method for leaky modes of microstructured optical fibers (2003) J. Lightwave Technol., 21, pp. 1005-1012
dc.description	White, T.P., Kuhlmey, B.T., McPhedran, R.C., Maystre, D., Renversez, R., De Sterke, C.M., Botten, L.C., Multipole method for microstructured optical fibers: I. Formulation (2002) J. Opt. Soc. Am., 19, pp. 2322-2330
dc.description	Wang, X., Lou, J., Lu, C., Zhao, C.L., Ang, W.T., Modeling of PCF with multiple reciprocity boundary element method (2004) Opt. Express, 12, pp. 961-966
dc.description	Birks, T., Knight, J., Russell, P., Endlessly single-mode photonic crystal fiber (1997) Opt. Lett., 22, pp. 961-963
dc.description	Mortensen, N.A., Photonic crystal fibres: Mapping Maxwell's equations onto a Schrödinger equation eigenvalue problem (2006) J. Eur. Opt. Soc. Rapid Public., 1, p. 06009
dc.description	Renversez, G., Bordas, F., Kuhlmey, B.T., Second mode transition in microstructured optical fibers: Determination of the critical geometrical parameter and study of the matrix refractive index and effects of cladding size (2005) Opt. Lett., 30, pp. 1264-1266
dc.description	Kurokawa, K., Nakajima, K., Tsujikawa, K., Yamamoto, T., Tajima, K., Ultra-wideband transmission over low loss PCF (2009) J. Lightwave Technol., 27, pp. 1653-1662
dc.description	Knight, J.C., Birks, T.A., Cregan, R.F., Russell, P., De Sandro, J.-P., Large mode area photonic crystal fibre (1998) Electronics Letters, 34 (13), pp. 1347-1348
dc.description	Furusawa, K., Malinowski, A., Price, J.H.V., Monro, T.M., Sahu, J.K., Nilsson, J., Richardson, D.J., Cladding pumped ytterbium-doped fiber laser with holey inner and outer cladding (2001) Opt. Express, 9, pp. 714-720
dc.description	Ortigosa-Blanch, A., Knight, J., Wadsworth, W.J., Arriaga, J., Mangam, B.J., Birks, T., Russell, P., Highly birefringent photonic crystal fibers (2000) Opt. Lett., 25, pp. 1325-1327
dc.description	Folkenberg, J., Nielsen, M., Mortensen, N., Jakobsen, C., Simonsen, H., Polarization maintaining large mode area photonic crystal fiber (2004) Opt. Express, 12, pp. 956-960
dc.description	Folkenberg, J.R., Nielsen, M.D., Jakobsen, C., Broadband single-polarization photonic crystal fiber (2005) Optics Letters, 30 (12), pp. 1446-1448. , DOI 10.1364/OL.30.001446
dc.description	Ranka, J., Windeler, R., Stentz, A., Visible continuum generation in air silica microstructure optical fibers with anomalous dispersion at 800 nm (2000) Opt. Lett., 25, pp. 25-27
dc.description	Ferrando, A., Silvestre, E., Miret, J.J., Andres, P., Nearly zero ultraflattened dispersion in photonic crystal fibers (2000) Opt. Lett., 25, pp. 790-792
dc.description	Reeves, W., Knight, J., Russell, P., Roberts, P., Demonstration of ultraflattened dispersion in photonic crystal fibers (2002) Opt. Express, 10, pp. 609-613
dc.description	Monro, T.M., West, Y.D., Hewak, D.W., Broderick, N.G.R., Richardson, D.J., Chalcogenide holey fibers (2000) Electron. Lett., 36, pp. 1998-2000
dc.description	Leong, J.Y.Y., Al, E., High-nonlinearity dispersion-shifted lead-silicate holey fibers for efficient 1 νm pumped supercontinuum generation (2006) J. Lightwave Technol., 24, p. 183
dc.description	Ebendorff-Heidepriem, H., Petropoulos, P., Asimakis, S., Finazzi, V., Moore, R.C., Frampton, K., Koizumo, F., Monro, T.M., Bismuth glass holey fibers with high nonlinearity (2004) Opt. Express, 12, pp. 5082-5087
dc.description	Kumar, V.V.R.K., George, A.K., Reeves, W.H., Knight, J.C., Russell, P.S.J., Extruded soft glass photonic crystal fiber for ultrabroad supercontinuum generation (2002) Opt. Express, 10, pp. 1520-1525
dc.description	Arismar Cerqueira, S., Chavez Boggio, J.M., Rieznik, A.A., Hernandez Figueroa, H.E., Fragnito, H.L., Knight, J.C., Highly efficient generation of broadband cascaded four-wave mixing products (2008) Opt. Express, 16, pp. 2816-2828
dc.description	Wadsworth, W.J., Joly, N., Knight, J.C., Birks, T.A., Biancalana, F., Russell, P.S., Supercontinuum and four-wave mixing with q-switched pulses in endlessly single-mode photonic crystal fibers (2004) Opt. Express, 12, pp. 299-309
dc.description	Ranka, J.K., Windeler, R.S., Stentz, A.J., Optical properties of high delta air silica microstructure optical fibers (2000) Opt. Lett., 25, pp. 796-798
dc.description	Travers, J.C., Stone, J.M., Rulkov, A.B., Cumberland, B.A., George, A.K., Popov, S.V., Knight, J.C., Taylor, J.R., Optical pulse compression in dispersion decreasing photonic crystal fiber (2007) Opt. Express, 15, pp. 13203-13211
dc.description	Wadsworth, W.J., Ortigosa-Blanch, A., Knight, J.C., Birks, T.A., Martin Man, T.-P., Russell St, P.J., Supercontinuum generation in photonic crystal fibers and optical fiber tapers: A novel light source (2002) J. Opt. Soc. Am., 19, pp. 2148-2155
dc.description	Omenetto, F.G., Al, E., Spectrally smooth supercontinuum from 350 nm to 3 νm in sub-centimeter lengths of soft-glass photonic crystal fibers (2006) Opt. Express, 14, pp. 4928-4934
dc.description	Humbert, G., Al, E., Supercontinuum generation system for optical coherence tomography based on tapered photonic crystal fibre (2006) Opt. Express, 14, pp. 1596-1603
dc.description	Inoue, K., Arrangement of fiber pieces for a wide wavelength conversion range by fiber four-wave mixing (1994) Opt. Lett., 19, pp. 1189-1191
dc.description	Domachuk, P., Wolchover, N.A., Cronin-Golomb, M., Wang, A., George, A.K., Cordeiro, C.M.B., Knight, J.C., Omenetto, F.G., Over 4000 nm bandwidth of mid-IR supercontinuum generation in sub-centimeter segments of highly nonlinear tellurite PCFs (2008) Opt. Express, 16, pp. 7161-7168
dc.description	Dai, J., Harrington, J.A., High-peak-power, pulsed CO 2 laser light delivery by hollow glass waveguides (1997) Appl. Opt., 36, pp. 5072-5077
dc.description	Mangam, R.F.C.B.J., Knight, J.C., Birks, T.A., Russell, P.S.J., Roberts, P.J., Allan, D.C., Single-mode photonic bandgap guidance of light in air (1999) Science, 285, pp. 1537-1539
dc.description	Petrovich, M.N., Poletti, F., Van Brakel, A., Richardson, D.J., Robustly single mode hollow core photonic bandgap fiber (2008) Opt. Express, 16, pp. 4337-4346
dc.description	Roberts, P.J., Al, E., Ultimate low loss of hollow-core photonic crystal fibres (2005) Opt. Express, 13, pp. 236-244
dc.description	Skibina, J.S., Iliew, R., Bethge, J., Bock, M., Fischer, D., Beloglasov, V.I., Wedell, R., Steinmeyer, G., (2008) Nature Photon., 2, p. 679
dc.description	Birks, T.A., Bird, D.M., Heddley, T.D., Pottage, J.M., Russell, P.S.J., Scaling laws and vector effects in bandgap-guiding fibres (2003) Opt. Express, 12, pp. 69-74
dc.description	Luan, F., George, A.K., Hedley, T.D., Pearce, G.J., Bird, D.M., Knight, J.C., Russell, P.S.J., All-solid photonic bandgap fiber (2004) Opt. Lett., 29, pp. 2369-4
dc.description	Argyros, A., Birks, T.A., Leon-Saval, S.G., Cordeiro, C.M.B., Luan, F., Russell, P.S.J., Photonic bandgap with an index step of one percent (2004) Opt. Express, 13, pp. 1540-1550
dc.description	Litchinitser, N.M., Dunn, S.C., Steinvurzel, P.E., Eggleton, B.J., White, T.P., McPhedran, R.C., De Sterke, C.M., Application of an arrow model for designing tunable photonic devices (2004) Opt. Express, 12, pp. 1540-1550
dc.description	Bouwmans, G., Bigot, L., Quiquempois, Y., Lopez, F., Provino, L., Douay, M., Fabrication and characterization of an all-solid 2D photonic bandgap fiber with a low-loss region (<20dB/km) around 1550 nm (2005) Opt. Express, 13, pp. 8452-8459
dc.description	Eijkelenborg, M.A.V., Al, E., Microstructured polymer optical fiber (2001) Opt. Express, 9, pp. 319-327
dc.description	Oskooi, A.F., Joannopoulos, J.D., Johnson, S.G., Zero-group-velocity modes in chalcogenide holey photonic-crystal fibers (2009) Opt. Express, 17, pp. 10082-10090
dc.description	Monro, T.M., Ebendorff-Heidepriem, H., Progress on microstructured optical fibers (2006) Annu. Rev. Mater. Res., 36, pp. 467-495
dc.description	Furusawa, K., Monro, T.M., Petropoulos, P., Richardson, D.J., A tunable femtosecond pulse source operating in the range 1.06-1.33 microns based on an Yb doped holey fiber amplifier (2001) Proc. CLEO
dc.description	Wang, Z., Taru, T., Birks, T.A., Knight, J.C., Liu, Y., Du, J., Coupling in dual-core photonic bandgap fibers: Theory and experiment (2007) Opt. Express, 15, pp. 4795-4803
dc.description	Feng, X., Mairaj, A.K., Hewak, D.W., Monro, T.M., Towards high-index glass based monomode holey fiber with large mode area (2004) Electron. Lett., 40, pp. 167-169
dc.description	Mori, A., Shikano, K., Enbutsu, K., Oikawa, K.M., Kato, K.N., Aozasa, S., 1.5 νm band zero-dispersion shifted tellurite photonic crystal fibre with a nonlinear coefficient of 675 w-1 km-1 (2004) Proc. European Conf. on Optical Communication
dc.description	Arismar Cerqueira, S., Cordeiro, C.M.B., Biancalana, F., Roberts, P.J., Hernandez-Figueroa, H.E., Cruz, C.H., Nonlinear interaction between two different photonic bandgaps of a hybrid photonic crystal fiber (2008) Opt. Lett., 33, pp. 2080-2082
dc.description	Cerqueira Jr., A.S., Hernandez-Figueroa, H.E., Fragnito, H.L., Highly birefringent hybrid photonic crystal fiber (2009) Proc. PIERS 2009-Progress in Electromagnetics Research Symp.
dc.description	Xiao, L., Jin, W., Demokan, M.S., Photonic crystal fibers confining light by both index-guiding and bandgap-guiding: Hybrid PCFs (2007) Opt. Express, 15, pp. 15637-15647
dc.description	Perrin, M., Quiquempois, Y., Bouwmans, G., Douay, M., Coexistence of total internal reflection and bandgap modes in solid core photonic bandgap fibre with interstitial air holes (2007) Opt. Express, 15, pp. 13783-13795
dc.description	Lyngs, J.K., Mangan, B.J., Roberts, P.J., Polarization maintaining hybrid TIR/bandgap all-solid photonic crystal fiber (2007) Proc. Conf. on Lasers and Electro-Optics
dc.description	Saini, S., Hong, C.Y., Bernardis, S., Pfaff, N., Kimerling, L.C., Michel, J., Hybrid waveguides for optically pumped amplifiers (2009) Appl. Phys. Lett., 94, p. 091117
dc.description	Schreiber, T., Al, E., Stress-induced single-polarization single-transverse mode photonic crystal fiber with low nonlinearity (2005) Opt. Express, 13, pp. 7621-7630
dc.description	Eggleton, B., Kerbage, C., Westbrook, P., Windeler, R., Hale, A., Microstructured optical fiber devices (2001) Opt. Express, 9, pp. 698-713
dc.description	Wadsworth, W., Witkowska, A., Leon-Saval, S., Birks, T., Hole inflation and tapering of stock photonic crystal fibres (2005) Opt. Express, 13, pp. 6541-6549
dc.description	Cordeiro, C.M.B., Dos Santos, E.M., Brito Cruz, C.H., De Matos, C.J., Ferreira, D.S., Lateral access to the holes of photonic crystal fibers-selective filling and sensing applications (2006) Opt. Express, 14, pp. 8403-8412
dc.description	Benabid, F., Couny, F., Knight, J., Birks, T.A., Russell, P.S.J., Compact, stable and efficient all-fibre gas cells using hollow-core photonic crystal fibres (2005) Nature, 434, pp. 488-851
dc.description	Wu, Z., Mi, Z., Bhattacharya, P., Zhu, T., Xu, J., Enhanced spontaneous emission at 1.55 νm from colloidal PbSe quantum dots in a Siphotonic crystal microcavity (2007) Appl. Phys. Lett., 90, p. 171105
dc.description	Busch, K., John, S., Liquid-crystal photonic-band-gap materials: The tunable electromagnetic vacuum (1999) Phys. Rev. Lett., 83, pp. 967-970
dc.description	Wolĩski, T.R., Ertman, S., Lesiak, P., Domãski, A.W., Czapla, A., Dabrowski, R., Nowinowski-Kruszelicki, Wójcik, J., Photonic liquid crystal fibers-a new challenge for fiber optics and liquid crystals photonics (2006) Opto-Electron. Rev., 14, pp. 329-334
dc.description	Larsen, T., Bjarklev, A., Hermann, D., Broeng, J., Optical devices based on liquid crystal photonic bandgap fibres (2003) Opt. Express, 11, pp. 2589-2596
dc.description	Jensen, J.B., Al, E., Photonic crystal fiber based evanescent-wave sensor for detection of biomolecules in aqueous solutions (2004) Opt. Lett., 29, pp. 1974-1976
dc.description	Du, Y., Lu, Q., Wu, S.T., Electrically tunable liquid-crystal photonic crystal fiber (2004) Appl. Phys. Lett., 85, pp. 2181-2183
dc.description	Alkeskjold, T.T., Laegsgaard, J., Bjarklev, A., Hermann, D.S., Broeng, J., Li, J., Wu, S.T., All-optical modulation in dye-doped nematic liquid crystal photonic bandgap fibers (2004) Opt. Express, 12, pp. 5857-5871
dc.description	Rosberg, C.R., Bennet, F.H., Neshev, D.N., Rasmussen, P.D., Bang, O., Krolikowski, W., Bjarklev, A., Kivshar, Y.S., Tunable diffraction and self-defocusing in liquid-filled photonic crystal fibers (2007) Opt. Express, 15, pp. 12145-12150
dc.description	Kerbage, C., Eggleton, B., Numerical analysis and experimental design of tunable birefringence in microstructured optical fiber (2002) Opt. Express, 10, pp. 246-255
dc.description	De Matos, C.J., Cordeiro, C.M.B., Dos Santos, E.M., Ong, J.S., Bozolan, A., Brito Cruz, C.H., Liquid-core, liquid-cladding photonic crystal fibers (2007) Opt. Express, 15, pp. 11207-11212
dc.description	Pines, D., Collective energy losses in solids (1956) Rev. Mod. Phys., 28, pp. 184-198
dc.description	Weiner, J., (2009) Rep. Prog. Phys., 72, p. 064401
dc.description	Ritchie, R.H., Plasma losses by fast electrons in thin films (1957) Phys. Rev., 106, pp. 874-881
dc.description	Gauvreau, B., Hassani, A., Fehri, M.F., Kabashin, A., Skorobogatiy, M., Photonic bandgap fiber-based surface plasmon resonance sensors (2007) Opt. Express, 15, pp. 11413-11426
dc.description	Hassani, A., Skorobogatiy, M., Design of the microstructured optical fiber-based surface plasmon resonance sensor with enhanced microfluidics (2006) Opt. Express, 14, pp. 11616-11621
dc.description	Schmidt, M.A., Sempere, L.N.P., Tyagi, H.K., Poulton, C.G., Russell St, P.J., Waveguiding and plasmon resonances in two-dimensional photonic lattices of gold and silver nanowires (2008) Phys. Rev., 77, p. 033417
dc.description	Hou, J., Bird, A., George, A., Maier, S., Kuhlmey, B., Knight, J.C., Metallic mode confinement in microstructured fibres (2008) Opt. Express, 16, pp. 5983-5990
dc.description	Lin, K., Lu, Y., Chen, J., Zheng, R., Wang, P., Ming, H., Surface plasmon resonance hydrogen sensor based on metallic grating with high sensitivity (2008) Opt. Express, 16, pp. 18599-18604
dc.description	Chesini, C., Cordeiro, C.M.B., De Matos, C.J., Fokine, M., Carvalho, I.C.S., Knight, J.C., All-fiber devices based on photonic crystal fibers with integrated electrodes (2009) Opt. Express, 17, pp. 1660-1665
dc.description	Schider, G., Al, E., Plasmon dispersion relation of Au and Ag nanowires (2003) Phys. Rev., 68, p. 155427
dc.description	Hautakorpi, M., Mattinen, M., Ludvigsen, H., Surface-plasmon-resonance sensor based on three-hole microstructured optical fiber (2008) Opt. Express, 16, pp. 8427-8432
dc.description	Millo, A., Lobachinsky, L., Katzir, A., Single-mode octagonal photonic crystal fibers for the middle infrared (2008) Appl. Phys. Lett., 92, p. 021112
dc.description	Couny, F., Roberts, P.J., Benabid, F., Birks, T.A., Square-lattice large-pitch hollow-core photonic crystal fiber (2008) Proc. Conf. on Lasers and Electro-Optics
dc.description	Palka, N., Ciurapiński, W., Wojcik, J., Szustakowski, M., Core-ring photonic crystal fibers for sensing (2008) Eur. Phys. J., 154, pp. 139-142
dc.description	Ponseca, C.S., Pobre, R., Estacio, E., Sarukura, N., Argyros, A., Large, M.C., Eijkelenborg, M.A.V., Transmission of terahertz radiation using a microstructured polymer optical fiber (2008) Opt. Lett., 33, pp. 902-904
dc.description	Razzak, S.M.A., Namihira, Y., Proposal for highly nonlinear dispersion-flattened octagonal photonic crystal fibers (2008) Photon. Technol. Lett., 20, pp. 249-251
dc.description	Couny, F., Benabid, F., Roberts, P.J., Light, P.S., Raymer, M.G., Generation and photonic guidance of multi-octave optical-frequency combs (2007) Science, 318, p. 1118
dc.description	Palka, N., Szustakowski, M., Conventional and photonic crystal optical fibre for localization sensor (2006) J. Phys., 137, pp. 157-160
dc.description	Passaro, D., Foroni, M., Poli, F., Cucinotta, A., Selleri, S., Laegsgaard, J., Bjarklev, A.O., All-silica hollow-core microstructured Bragg fibers for biosensor application (2008) IEEE Sensors J., 8, pp. 1280-1286
dc.description	Chen, C., Laronche, A., Bouwmans, G., Bigot, L., Quiquempois, Y., Albert, J., Sensitivity of photonic crystal fiber modes to temperature, strain and external refractive index (2008) Opt. Express, 16, pp. 9645-9653
dc.description	De Oliveira, R.E.P., De Matos, C.J.S., Knight, J.C., Taru, T., Arismar Cerqueira, S., Temperature response of photonic bandgap fibers based on high-index inclusions (2009) Proc. Conf. on Lasers and Electro-Optics
dc.description	Bock, W.J., Chen, J., Eftimov, T., Urbanczyk, W., A photonic crystal fiber sensor for pressure measurements (2006) IEEE Transactions on Instrumentation and Measurement, 55 (4), pp. 1119-1123. , DOI 10.1109/TIM.2006.876591
dc.description	Allsop, T., Kallib, K., Zhoua, K., Laia, Y., Smith, G., Dubova, M., Webba, D.J., Benniona, I., Long period gratings written into a photonic crystal fibre by a femtosecond laser as directional bend sensors (2008) Opt. Commun., 281, pp. 5092-5096
dc.description	Smolka, S., Barth, M., Benson, O., Highly efficient fluorescence sensing with hollow core photonic crystal fibers (2008) Proc. IEEE LEOS, pp. 181-182
dc.description	Monzon-Hernandez, D., Minkovich, V.P., Villatoro, J., Kreuzer, M.P., Badenes, G., Photonic crystal fiber microtaper supporting two selective higher-order modes with high sensitivity to gas molecules (2008) Appl. Phys. Lett., 93, p. 081106
dc.description	Humbach, O., Fabian, H., Grzesik, U., Haken, U., Heitmann, W., Analysis of OH absorption bands in synthetic silica (1996) J. Non-Cryst. Solids, 203, pp. 19-26
dc.description	Sanghera, J.S., Shaw, L.B., Agrawal, I.D., Applications of chalcogenide glass optical fibres (2002) C. R. Chim., 5, pp. 873-883
dc.description	Katagiri, T., Matsuura, Y., Miyagi, M., Metal-covered photonic bandgap multilayer for infrared hollow waveguides (2002) Appl. Opt., 41, pp. 7603-7606
dc.description	Shephard, J.D., MacPherson, W.N., Maier, R.R.J., Jones, J.D.C., Hand, D.P., Mohebbi, M., George, A.K., Knight, J.C., Single-mode mid-IR guidance in a hollow-core photonic crystal fiber (2005) Optics Express, 13 (18), pp. 7139-7144. , http://www.opticsexpress.org/view_file.cfm?doc= %24%2A%3C%23%27J0%20%20%0A&id=%25%28%2C3%2BI%5C0%20%0A, DOI 10.1364/OPEX.13.007139
dc.description	Pearce, G., Pottage, J., Bird, D., Roberts, P., Knight, J., Russell, P., Hollow-core PCF for guidance in the mid to far infra-red (2005) Opt. Express, 13, pp. 6937-6946
dc.description	Tonouchi, M., Cutting-edge terahertz technology (2007) Nature Photon., 1, pp. 97-105
dc.description	Jamison, S.P., McCow, R.W., Grischkowsky, D., Single-mode waveguide propagation and reshaping of sub-ps terahertz pulses in sapphire fiber (2000) Appl. Phys. Lett., 76, pp. 1987-1989
dc.description	Atakaramians, S., Shahraam, A.V., Fischer, B.M., Abbott, D., Monro, T.M., Porous fibers: A novel approach to low loss THz waveguides (2008) Opt. Express, 16, pp. 8845-8854
dc.description	Han, H., Park, H., Cho, M., Kim, J., THz pulse propagation in plastic photonic crystal fiber (2002) Appl. Phys. Lett., 80, pp. 2634-2636
dc.description	Goto, M., Quema, A., Takahashi, H., Ono, S., Sarukura, N., Teflon photonic crystal fiber as terahertz waveguide (2004) Japan. J. Appl. Lett., 43 (2), pp. 317-L319
dc.description	Cho, M., Kim, J., Park, H., Han, Y., Moon, K., Jung, E., Han, H., Highly birefringent terahertz polarization maintaining plastic photonic crystal fibers (2008) Opt. Express, 16, pp. 7-12
dc.description	Wang, K., Mittleman, D.M., Metal wires for terahertz wave guiding (2004) Nature, 432, pp. 376-379
dc.description	Hansen, T.P., Broeng, J., Libori, S.E.B., Knudsen, E., Bjarklev, A., Jensen, J.R., Simonsen, H., Highly birefringent index-guiding photonic crystal fibers (2001) IEEE Photonic. Technol. Lett., 13, pp. 588-590
dc.description	Ren, G., Gong, Y., Shum, P., Yu, X., Hu, J., Wang, G., Chuen, M.O.L., Paulose, V., Low-loss air-core polarization maintaining terahertz fiber (2008) Opt. Express, 16, pp. 13593-13598
dc.description	Dong, L., Archambault, J.L., Reekie, L., Russell St, P.J., Payne, D.N., Photoinduced absorption change in germanosilicate preforms: Evidence for the color-center model of photosensitivity (1995) Appl. Opt., 34, pp. 3436-3440
dc.description	Williams, D.L., Al, E., (1991) SPIE Proc. Photo. Opt. Instrum. Eng., 29, p. 1516
dc.description	Nodop, D., Rindorf, L., Linke, S., Limpert, J., Tunnermann, A., Long-period gratings written in large-mode area photonic crystal fiber (2008) Appl. Phys., 92, pp. 509-512
dc.description	Rindorf, L., Jensen, J.B., Dufva, M., Pedersen, L.H., Høiby, P.E., Bang, O., Photonic crystal fiber long-period gratings for biochemical sensing (2006) Opt. Express, 14, pp. 8224-8231
dc.description	Kuhlmey, B.T., Luan, F., Fu, L., Yeom, D., Eggleton, B.J., Wang, A., Knight, J.C., Experimental reconstruction of bands in solid core photonic bandgap fibres using acoustic gratings (2008) Opt. Express, 16, pp. 13845-13856
dc.description	Emkey William, L., Jack Curtis, A., Analysis and evaluation of graded-index fiber lenses (1987) Journal of Lightwave Technology, LT-5 (9), pp. 1156-1164
dc.description	Kim, J., Han, M., Chang, S., Lee, J.W., Oh, K., Achievement of large spot size and long collimation length using UV curable self-assembled polymer lens on a beam expanding core-less silica fiber (2004) Photon. Technol. Lett., 16, pp. 2499-2501
dc.description	Kong, G.J., Kim, J., Choi, H.Y., Im, J.E., Park, B.H., Paek, U.C., Lee, B.H., Lensed photonic crystal fiber obtained by use of an arc discharge (2006) Opt. Lett., 31, pp. 894-896
dc.description	Choi, H.Y., Ryu, S.Y., Na, J., Lee, B.H., Sohn, I.B., Noh, Y.C., Lee, J., Single-body lensed photonic crystal fibers as side-viewing probes for optical imaging systems (2008) Opt. Lett., 33, pp. 34-36
dc.description	Huntington, S.T., Gibson, B.C., Canning, J., Digweed-Lyytikäinen, K., Love, J.D., Steblina, V., A fractal-based fibre for ultra-high throughput optical probes (2007) Opt. Express, 15, pp. 2468-2475
dc.description	Hansen, K.P., Broeng, J., High-power photonic crystal fiber lasers (2006) Photonics Spectra
dc.description	Knight, J.C., Photonic crystal fibers and fiber lasers (2007) J. Opt. Soc. Am., 24, pp. 1661-1668
dc.description	Roy, P., Al, E., Photonic crystal fibres for lasers and amplifiers (2006) C. R. Phys., 7, pp. 224-232
dc.description	Wadsworth, W.J., Knight, J.C., Reeves, W.H., Russell, P.S., Arriaga, J., Yb3+doped photonic crystal fibre laser (2000) Electron. Lett., 36, pp. 1452-1454
dc.description	Li, L., Schülzgen, A., Temyanko, V.L., Morrell, M.M., Sabet, S., Li, H., Moloney, J.V., Peyghambarian, N., Ultracompact cladding-pumped 35 mm-short fiber laser with 4.7-W single-mode output power (2006) Appl. Phys. Lett., 88, p. 161106
dc.description	Limpert, J., Schmidt, O., Rothhardt, J., Röser, F., Schreiber, T., Tünnermann, A., Ermeneux, S., Salin, F., Extended single-mode photonic crystal fiber lasers (2006) Opt. Express, 14, pp. 2715-2720
dc.description	Sébastien, F.E., High-power photonic-bandgap fiber laser (2008) Opt. Lett., 33, pp. 989-991
dc.description	Couny, F., Benabid, F., Light, P.S., Subwatt threshold cw Raman fiber-gas laser based on H2-filled hollow-core photonic crystal fiber (2007) Phys. Rev. Lett., 99, p. 143903
dc.description	De Mattos, C.J.S., Al, E., Random fiber laser (2007) Phys. Rev. Lett., 99, p. 153903
dc.description	Vieira, R.J.R., De Matos, C.J.S., Arismar Cerqueira, S., Couny, F., Benabid, F., Gomes, L., Wetter, N.U., Large hollow-core fiber random dye laser (2009) Proc. CLEO Europe
dc.description	Kawanishi, S., Komukai, T., Ohmori, M., Sakaki, H., Photoluminescence of semiconductor nanocrystal quantum dots at 1550 nm wavelength in the core of photonic bandgap fiber (2007) Proc. Conf. on Lasers and Electro-Optics, pp. 1-2
dc.description	Thielen, A., Al, E., Small core As-Se fiber for Raman amplification (2003) Opt. Express, 28, pp. 1406-1408
dc.description	Brooks, C.D., Di Teodoro, F., 1-mJ energy, 1-MW peak-power, 10-W average-power, spectrally narrow, diffraction-limited pulses from a photonic-crystal fiber amplifier (2005) Optics Express, 13 (22), pp. 8999-9002. , http://www.opticsexpress.org/view_file.cfm?doc= %24%2A%2C%2F%2BJ0%20%20%0A&id=%25%28%2CO%27J%5C%3C%20%0A, DOI 10.1364/OPEX.13.008999
dc.description	Schmidt, O., Rothhardt, J., Eidam, T., Röser, F., Limpert, J., Tünnermann, A., Hansen, K.P., Broeng, J., Single-polarization ultra-large-mode-area Yb-doped photonic crystal fiber (2008) Opt. Express, 16, pp. 3918-3923
dc.description	Broeng, J., Vienne, G., Petersson, A., Skovgaard, P.M.W., Folkenberg, J.R., Nielsen, M.D., Jakobsen, C., Mortensen, N.A., Air-clad photonic crystal fibers for high-power single-mode lasers (2004) Proc. SPIE, 5335, pp. 192-120
dc.description	Mortensen, N.A., Air-clad fibers: Pump absorption assisted by chaotic wave dynamics? (2007) Opt. Express, 15, pp. 8988-8996
dc.description	Benabid, F., Knight, J.C., Antonopoulos, G., Russell, P.S.J., Stimulated Raman scattering in hydrogen-filled hollow-core photonic crystal fiber (2002) Science, 298, pp. 399-402
dc.description	Humbert, G., Knight, J.C., Bouwmans, G., Russell, P.S.J., Williams, D.P., Roberts, P.J., Mangan, B.J., Hollow core photonic crystal fibers for beam delivery (2004) Opt. Express, 12, pp. 1477-1484
dc.description	Limpert, J., Al, E., High-power air-clad large mode-area photonic crystal fiber laser (2003) Opt. Express, 11, pp. 818-823
dc.description	Couny, F., Benabid, F., Light, P.S., Large-pitch kagome-structured hollow-core photonic crystal fiber (2006) Opt. Lett., 31, pp. 3574-3576
dc.description	www.crystalfiber.comLimpert, J., Liem, A., Reich, M., Schreiber, T., Nolte, S., Zellmer, H., Tunnermann, A., Jakobsen, C., Low-nonlinearity single-transverse-mode ytterbium-doped photonic crystal fiber amplifier (2004) Opt. Express, 12, pp. 1313-1319
dc.description	Di, T.F., Brooks, C.D., Multistage Yb-doped fiber amplifier generating megawatt peak-power, subnanosecond pulses (2005) Opt. Lett., 30, pp. 3299-3301
dc.description	Akiyama, T., Al, E., An ultrawide-band semiconductor optical amplifier having an extremely high penalty-free output power of 23 dBm achieved with quantum dots (2005) IEEE J. Photon. Technol. Lett., 17, pp. 1614-1616
dc.language	en
dc.publisher
dc.relation	Reports on Progress in Physics
dc.rights	fechado
dc.source	Scopus
dc.title	Recent Progress And Novel Applications Of Photonic Crystal Fibers
dc.type	Artículos de revistas

Este ítem pertenece a la siguiente institución

Universidade Estadual de Campinas (Brasil)