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Articles (liste non exhaustive)


See also recent works in arXiv : direct link here

  1. M. Napiorkowski, G. Renversez, and W. Urbanczyk, Effect of cladding geometry on resonant coupling between fundamental and cladding modes in twisted microstructured fibers, accepted for publication in Opt. Express, 2019.
  2. M. M. R. Elsawy and G. Renversez, Exact calculation of the nonlinear characteristics of 2D isotropic and anisotropic waveguides, Optics Lett., 43(11), pp. 2446-2449, 2018. doi: <10.1364/OL.43.002446> (pdf)
  3. T. Kuriakose, E. Baudet, T. Halenkovi, M. M. R. Elsawy, P. Nemec, V. Nazabal, G Renversez, M. Chauvet, 'Measurement of Ultrafast Optical Kerr effect of Ge-Sb-Se Chalcogenide Slab Waveguides by the Beam Self-trapping Technique', Optics Communications, 403, pp. 352-357, 2017. doi: <10.1016/j.optcom.2017.07.061> (pdf)
  4. M. M. R. Elsawy and G. Renversez, Study of plasmonic slot waveguides with a nonlinear metamaterial core: semi-analytical and numerical methods, Journal of Optics, 19, 075001, 2017. doi: <10.1088/2040-8986/aa7094> (19 pages in double column format) (pdf)
  5. M. M. R. Elsawy and G. Renversez, Spatial nonlinearity in anisotropic metamaterial plasmonic slot waveguides, Plasmonics, 2017. doi: 10.1007/s11468-017-0595-0 (pdf)
  6. M. M. R. Elsawy and G. Renversez, Improved nonlinear slot waveguides using dielectric buffer layers: properties of TM waves, Optics Lett., 41(7), pp. 1542-1545, 2016. doi: <10.1364/OL.41.001542> hal: <hal-01280607> (pdf)
  7. W. Walasik, G. Renversez, F. Ye. Plasmon-soliton waves in planar slot waveguides: II. Results for stationary waves and stability analysis, Phys. Rev. A, 93, 013826, 2016. doi: <10.1103/PhysRevA.93.013826> hal: <hal-01269863> (pdf)
  8. W. Walasik and G. Renversez.Plasmon-soliton waves in planar slot waveguides: I. Modeling, Phys. Rev. A, 93, 013825, 2016 doi: <10.1103/PhysRevA.93.013825> hal: <hal-01269839> (pdf)
  9. W. Walasik, A. Alejandro, and G. Renversez, Symmetric Plasmonic Slot Waveguides with a Nonlinear Dielectric Core: Bifurcations, Size Effects, and Higher Order Modes, Plasmonics, 10, p. 33-38, 2015. doi: <10.1007/s11468-014-9773-5>. (pdf)
  10. C. Caillaud, G. Renversez, L. Brilland, D. Mechin, L. Calvez, J.-L. Adam, and J. Troles, Photonic Bandgap Propagation in All-Solid Chalcogenide Microstructured Optical Fibers. Materials, 7, p. 6120-6129, 2014. doi: <10.3390/ma7096120> (pdf)
  11. W. Walasik, G. Renversez, and Y. Kartashov, Stationary plasmon-soliton waves in metal-dielectric nonlinear planar structures: Modeling and properties, Phys. Rev. A, 2014. doi: <10.1103/PhysRevA.99.023816> (pdf)
  12. M. Olivier, J.C. Tchahame, P. Nemec, M. Chauvet, V. Besse, C. Cassagne,G. Boudebs, G. Renversez, R. Boidin, E. Baudet, and V. Nazabal, Structure, nonlinear properties, and photosensitivity of (GeSe2)100-x(Sb2Se3)x glasses, Optical Materials Express, 4(3), p. 525-540, 2014.doi:<10.1364/OME.4.000525> (pdf)
  13. P. Toupin, L. Brilland, G. Renversez, J. Troles1, All-solid all-chalcogenide microstructured optical fiber, Opt. Express, 21(12), p. 14643-14648, 2013. (pdf)
  14. W. Walasik, V. Nazabal, M. Chauvet, Y. Kartashov, and G. Renversez, Low power plasmon-soliton in realistic nonlinear planar structures, Opt. Letters, 37(22), p. 4579-4581, 2012. (pdf)
  15. M. Duhant, W. Renard, G. Canat, T. N. Nguyen, F. Smektala, J. Troles, Q. Coulombier, P. Toupin, L. Brilland, P. Bourdon, and G. Renversez, Fourth-order cascaded Raman shift in AsSe chalcogenide suspended-core fiber pumped at 2 $\mu $m, Opt. Letters, 36(15), p. 2859-2861, 2011. (pdf)
  16. I. Savelii, J.C. Jules, G. Gadre, B. Kibler, J. Fatome, M. El-Amraoui, N. Manikandan, X. Zheng, F. Désévédavy, J.M. Dudley, J. Troles, L. Brilland, G. Renversez, F. Smektala, Suspended core tellurite glass optical fibers for infrared supercontinuum generation, Optical Materials, 33(11), p. 1661-1665, 2011. (pdf)
  17. C. Conseil and Q. Coulombier and C. Boussard-Plédel and J. Troles and L. Brilland and G. Renversez and D. Mechin and B. Bureau and J.L. Adam and J. Lucas, Chalcogenide step index and microstructured single mode fibers, Journal of Non-Crystalline Solids, 357(11-13), p.2480-2483, 2011.(pdf)
  18. J. Troles, Q Coulombier, G. Canat, M. Duhant, W. Renard, P. Toupin, L. Calvez, G. Renversez, F. Smektala, M. El Amraoui, J. L. Adam, T. Chartier, D. Mechin and L. Brilland, Low loss microstructured chalcogenide fibers for large non linear effects at 1995 nm, Opt. Express, 18(25), p. 26647-26654, 2010. (pdf)
  19. F. Désévédavy, G. Renversez, J. Troles, P. Houizot, L. Brilland, I. Vasilief, Q. Coulombier, N. Traynor, F. Smektala, J.-L. Adam, Chalcogenide glass hollow core photonic crystal fibers, Optical Materials, 32(11), p. 1532-1539, 2010. (pdf)
  20. Q. Coulombier, L. Brilland, P. Houizot, T. Chartier, T.-N. Nam N'Guyen, F. Smektala, G. Renversez, A. Monteville, T. Pain, H. Orain, J.-C. Sangleboeuf, J. Trolès, Casting method for low-loss chalcogenide microstructured optical fibers, Opt. Express, 18(8), p. 9107-9112, 2010. (pdf)
  21. M. El-Amraoui, J. Fatome, J. C. Jules, B. Kibler, G. Gadret, C.Fortier, F. Smektala, I. Skripatchev, C. Polacchini, Y. Messaddeq, J.Troles, L. Brilland, M. Szpulak, G. Renversez, Strong infrared spectral broadening in low-loss As S chalcogenide suspended core microstructured optical fibers, Opt. Express, 18(5), p. 4547-4556, 2010. (pdf)
  22. F. Désévédavy, G. Renversez, J. Troles, L. Brilland, P. Houizot, Q. Coulombier, F. Smektala, N. Traynor, and J.-L. Adam, Te-As-Se glass microstructured optical fiber for the middle infrared , Applied optics, 48(19), p. 3860-3865, 2009. (pdf)
  23. F. Charpentier, J. Troles, Q. Coulombier, L. Brilland, P. Houizot, F. Smektala, C. Boussard-Plédel, V. Nazabal, N. Thibaud, K. Le Pierrès, G. Renversez, and B. Bureau, CO2 Detection Using Microstructured Chalcogenide Fibers, Sensor Letters, 7(5), p. 745-749, 2009.
  24. J. Fatome, C. Fortier, T. N. Nguyen, T. Chartier, F. Smektala, K. Messaad, B. Kibler, S. Pitois, G. Gadret, C. Finot, J. Troles, F. Desevedavy, P.  Houizot, G.  Renversez, L.  Brilland, and N. Traynor, Linear and Nonlinear Characterizations of Chalcogenide Photonic Crystal Fibers, Journal of Lightwave Technology, 27(11), p. 1707-1715, 2009. (pdf)
  25. J. Troles, L. Brilland, F. Smektala, P. Houizot, F. Desevedavy, Q. Coulombier, N. Traynor, T. Chartier, T. N. Nguyen, J. L. Adam and G. Renversez, Chalcogenide Microstructured Fibers for Infrared Systems, Elaboration, Modelization, and Characterization, Fiber and Integrated Optics, 28(1), p. 11-26, 2009. (pdf)
  26. F. Désévédavy, G. Renversez, L. Brilland, P. Houizot, J. Troles, Q. Coulombier, F. Smektala, N. Traynor, et J.-L. Adam, Small-core chalcogenide microstructured fibers for the infrared, Applied Optics, 47(32), p. 6014-6021, 2008. (pdf)
  27. F. Drouard, G. Renversez, A. Nicolet and C. Geuzaine, Spatial Kerr solitons in optical fibres of finite size cross section: beyond the Townes soliton, J. Opt. A: Pure Appl. Opt., 10, 125101, doi:10.1088/1464-4258/10/12/125101, 2008. (pdf)
  28. L. Brilland, J. Troles, P. Houizot, F. Désévédavy, Q. Coulombier, G. Renversez, T. Chartier, T.N. Nguyen, J.L. Adam and N. Traynor, Interface impact on the transmission of chalcogenide photonic crystal fibres, Journal of the Ceramic Society of Japan, 116(10), p. 1024-1027, 2008. (pdf)
  29. P. Boyer and G. Renversez and E. Popov and M. Nevière,Improved differential method for microstructured optical fibres, J. Opt. A: Pure Appl. Opt. 9, p. 728-740, 2007. (lien vers l'article) (pdf)
  30. A. Nicolet, F. Drouart, G .Renversez, and C. Geuzaine, A finite element analysis of spatial solitons in optical fibres, COMPEL, 26(4), p. 1105-1113, 2007.
  31. P. Boyer and G. Renversez and E. Popov and M. Nevière, A new differential method applied to the study of arbitrary cross section microstructured optical fibers, Optical and Quantum Electronics, 38, p. 217-230, 2006.(pdf)
  32. G. Renversez, P. Boyer and A. Sagrini, Antiresonant reflecting optical waveguide microstructured fibers revisited: a new analysis based on leaky mode coupling, Optics Express, 14(12), p. 5682-5687, 2006. article en ligne (pdf)
  33. L. Labonté, D. Pagnoux, P. Roy, F. Bahloul, M. Zghal, G. Mélin, E. Burov and G. Renversez, Accurate measurement of the cutoff wavelength in a microstructured optical fiber by means of an azimuthal filtering technique, Optics Letters, 31(12), p. 1779-1781, 2006. (pdf)
  34. L. Brilland, F. Smektala, G. Renversez, T. Chartier, J. Troles, T.-N. Nguyen, N. Traynor, and A. Monteville, Fabrication of complex structures of Holey Fibers in chalcogenide glass, Optics Express, 14 (3), p. 1280-1285, 2006. article en ligne (pdf)
  35. P. Boyer, M. Nevière, E. Popov, and G. Renversez, Application of the Fast Fourier Factorization method to cylindrical devices with arbitrary cross section lighted in conical mounting, J. Opt. Soc. Am. A, 53(5), p. 1146-1158, 2006. (pdf)
  36. G. Renversez, F. Bordas, and B. T. Kuhlmey, 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. Optics Letters, 30(11), p. 1264-1266, 2005. (article en postscript compressé) $\,$ (pdf)
  37. G. Renversez, B. Kuhlmey, and R. C. McPhedran. Dispersion management with microstructured optical fibers: Ultra-flattened chromatic dispersion with low losses., Optics Letters, 28(12), p. 989-991, 2003.(article en postscript compressé) $\,$ (pdf)
  38. B. Kuhlmey, G. Renversez, and D. Maystre. Chromatic dispersion and losses of microstructured optical fibers. Applied Optics OT, 42(4), p. 634-639, 2003.(article en postscript compressé) $\,$ (pdf)
  39. B. Kuhlmey, M. de Sterke, R. C. McPhedran, P. Robinson, G. Renversez, and D. Maystre. Microstructured Optical fibers: where's the edge. Optics Express, 10(22), p. 1285-1290, 2002 (pdf)
  40. T. P. White, B. Kuhlmey, R. C. McPhedran, D. Maystre, G. Renversez, C. Martijn de Sterke, and L.C. Botten. Multipole method for microstructured optical fibers I: Formulation. J. Opt. Soc. Am. B, 19(10), p. 2322-2330, 2002.(article en postscript compressé) $\,$ (pdf)
  41. B. Kuhlmey, T. P. White, G. Renversez, D. Maystre, L.C. Botten, C. Martijn de Sterke, and R. C. McPhedran. Multipole method for microstructured optical fibers II: Implementation and results. J. Opt. Soc. Am. B, 19(10), p. 2331-2340, 2002.(article en postscript compressé) $\,$ (pdf)
  42. M. Léonetti, G. Renversez and E. Dubois-Violette. Influence of specific ionic diffusion on the protein self-aggregation instability. Europhysics Letters, 46(1), p. 107-113, 1999. (résumé/abstract)
  43. G. Renversez. Synchronization in two-neurons: results for a two-component dynamical model with time-delayed inhibition, Physica D, 114, p. 147-171, 1998.(résumé/abstract)(article en postscript compressé) $\,$ (pdf)
  44. G. Renversez and O. Parodi. Potential distribution on a neuronal somatic membrane during an action potential. Europhysics Letters, 36(4), p. 313-318, 1996.(résumé/abstract)
  45. F. Dalfovo, G. Renversez and J. Treiner.Vortices with more than one quantum of circulation in 4He at negative pressure, J. of Low Temperature Physics, 89, p. 425-428, doi:10.1007/BF00694055, 1992.

next up previous contents
suivant: Articles de conférences internationales monter: Publications précédent: Livres   Table des matières
renverse 2019-02-12