A0. Thèse (soutenue le 10 novembre 1998):
Bourova E. Structure et dynamique des polymorphes de silice à haute température: diffraction de rayons X et simulations théoriques. Thèse de Doctorat de l’Institut de Physique du Globe de Paris.
A: Revues à comité de lecture
A1. Kotelnikov G.I., Stomakin A. Ya., Bourova E.S., Chipitcin S. Ya., Babaskin Yo. Z., Savitchenko S. Ya., La solubilité de l’azote et la formation des nitrides dans les alliages Fe-Cr; Partie II, Processi litia (Melting Processes), N° 3, 67-75, 1995
A2. Kotelnikov G.I., Stomakin A. Ya., Bourova E.S., Chipitcin S. Ya., Babaskin Yo. Z., Savitchenko S. Ya., La solubilité de l’azote et la formation des nitrides dans les alliages Fe-Cr; Partie I, Processi litia (Melting Processes), N° 2, 56-67, 1995.
A3. Bourova E., Richet P., Quartz and cristobalite: High-temperature cell parameters and volumes of fusion, Geophysical Research Letters, vol.25, 2333-236, 1998.
A4. Bourova E., Parker S. C. and P.Richet, Atomistic simulation of cristobalite at high temperature, Phys. Rev. B, 62, 12052-12061, 2000.
A5. Parker S.C., N.H. de Leeuw, E. Bourova, D.J.Cooke, Application of Lattice Dynamics and Molecular Dynamics Techniques to Minerals and Their Surfaces, Reviews in Mineralogy and Geochemistry, 42, pp.63-82, 2001
A6. Bourova E., Parker S. C. and P.Richet, High-temperature structure and dynamics of coesite (SiO2) from numerical simulations, Phys. Chem. Minerl., 2004.
A7. Bourova E., Richet P., Petite J.P., Thermal expansion of coesite (SiO2), Amer. Mineral., 2003.
A8. Régnier, E.; Poumellec, B.; Guitton, P.; Manolescu, G.; Bourova, E.; Gasca, L.; Flammer, I.; Guénot, P.; Nouchi, P., Infrared optical properties of highly P doped silica fibres: a spectroscopic study , Glass Technology – European Journal of Glass Science and Technology Part A, Volume 46, Number 2, April 2005 , pp. 99-102(4), 2005
A9. Manolescu, G.; Poumellec, B.; Regnier, E.; Flammer, I.; Bourova, E.; Gasca, L.; Martinez, V.; Champagnon, B. Large spectral range Raman gain prediction for telecommunication glass fibres , Glass Technology – European Journal of Glass Science and Technology Part A, Volume 46, Number 2, April , pp. 85-88(4), 2005
A10. Labonté L.; Pangnoux D.; Roy P.; Bahloul F.; Zghal M.; MELIN G.; Burov E.; Renversez G.; Accurate measurement of the cutoff wavelength in a microstructured optical fiber by means of an azimuthal filtering technique, Optics letters , vol. 31, no12, pp. 1779-1781, 2006
A11. Labonté L., Roy P., Pagnoux D., Louradour F., Restoin C., Mélin G. and E Burov, Experimental and numerical analysis of the chromatic dispersion dependence upon the actual profile of small core microstructured fibres, J. Opt. A: Pure Appl. Opt. 8 933, 2006
A12. P. Hamel, R. Gabet, A-F. Obaton, E. Burov, G. Melin, Y. Jaouën, « Mesure de la dispersion chromatique de fibres micro-structurées par réflectométrie à faible cohérence « , Revue Française de Métrologie, vol. 2006-4, n° 8, pp. 3-11, Jan. 2007.
A13. Manolescu, G.; Poumellec, B.; Burov, E.; Gasca, L. Raman extra wide band silica based glasses for amplification in telecommunications , Glass Technology – European Journal of Glass Science and Technology Part A, Volume 50, Number 3, June, pp. 143-146(4), 2009
A14. Peretti R., Jacquier B., Boivin D., Burov E., and A.M. Jurdyc, Inhomogeneous Gain Saturation in EDF: Experiment and Modeling, Journal of Lightwave Technology, Vol. 29, Issue 10, pp. 1445-1452; 2011
A15. Peretti R., Jurdyc A.M., Jacquier B., Burov E., L. Gasca, Resonant fluorescence line narrowing and gain spectral hole burning in erbium-doped fiber amplifier, Journal of Luminescence, Vol: 128, Issue: 5-6, 1010-1012, 2008
A16. Cereyon A., Jurdyc A.M., Martinez V., Burov E., Pastouret A., Champagnon B., Raman amplification in nanoparticles doped glasses, Journal of Non-Crystalline Solids, Vol: 354, Issue: 29, Date: 2008-7-01, Pages: 3458-3461, 2008
A17. Pastouret, A.; Gonnet, C.; Collet, C.; Cavani, O.; Burov, E.; Chaneac, C.; Carton, A.; Jolivet, J. P., Nanoparticle Doping Process for improved amplifier and laser fibers, Photonic West, Proc. of SPIE Vol. 7580, 75802B, 2009
A18. Régnier, E.; Burov, E.; Pastouret, A.; Boivin, D.; Kuyt, G.; Gooijer, F.; Bergonzo, A.; Berkers, A.; Signoret, P.; Troussellier, L.; Storaasli, O.; Nouchi, P.., Recent developments in optical fibers and how defense, security and sensing can benefit, SPIE Defense Security Sensing Conference, Proc. of SPIE Vol. 7306 730618-10, 2009
A19. Boivin D., Fohn T., Burov E., Pastouret A., Gonnet C., Cavani O., Collet C. and S. Lempereur Quenching investigation on New Erbium Doped Fibers using MCVD Nanoparticle Doping Process, Photonic West, Proc. of SPIE Vol. 7580, 75802B, 2010
A20. Peretti R., Jurdyc A.M., Jacquier B., Gonnet C., Pastouret A., Burov E., and O. Cavani, How do traces of thulium explain photodarkening in Yb doped fibers ?; Optics Express, Vol. 18, Issue 19, pp. 20455-20460, 2010
A21. Thomas J., Myara M., Troussellier L., Burov E., Pastouret A., Boivin D., Melin G., Gilard O., Sotom M. and P. Signoret, Radiation-Resistant Erbium-Doped-Nanoparticles Optical Fiber for Space Applications, Photonic West, Proc. of SPIE Vol.8237, 2012
A22. D. Boivin D., Pastouret A.; Burov E.; Gonnet C.; Cavani O.; Lempereur S.; Sillard P.; Goldmann C.; Saudry E.; Chanéac C.; Shlifer A.; Ghera U.,Core-shell Nanoparticle Er-doped fibers for next generation amplifiers, Photonic West, Proc. of SPIE, Vol.8237, Paper 8237-100 , 2012
A23. Sikali Mamdem Y., Burov E., De Montmorillon L.-A., Jaouën Y., Moreau G., Gabet R., and F. Taillade, Importance of residual stresses in the Brillouin gain spectrum of single mode optical fibers, Optics Express, Vol. 20 Issue 2, pp.1790-1797, 2012
A24. Thomas J., Myara M., Troussellier L., Burov E., Pastouret A., Boivin D., Melin G., Gilard O., Sotom M. and P. Signoret, Radiation-Resistant Erbium-Doped-Nanoparticles Optical Fiber for Space Applications, Optics Express, Vol. 20 Issue 3, pp.2435-2444, 2012
A25. W. Blanc, B. Dussardier, E. Burov, A. Pastouret, « Formation et applications des nanoparticules dans les fibres optiques à base de silice », chapitre du livre « Du verre au cristal. Nucléation, croissance et démixtion, de la recherche aux applications », Ed. Daniel R. Neuville, Laurent Cormier, Daniel Caurant, Lionel Montagne, EDP Sciences, 2013
A26. W. Woelffel , C. Claireaux, M.J. Toplis, E.Burov, É. Barthel, A.Shukla , J. Biscaras , M-H. Chopinet , E. Gouillart, Analysis of soda-lime glasses using non-negative matrix factor deconvolution of Raman spectra, Journal of Non-Crystalline Solids 428 (2015) 121–131
B: Brevets :
B1. Bourova E., Blanchandin S., Garapon J., Raman-Active Optical fibre : Ultra wide band Raman-Active optical fibre for amplifier and laser, Brevet International EP02360245.1, 2002.
B2. Bourova E., Simonneau C., Martinelli C., Provost L., Fibre optique amplificatrice en anneau dopé et l’amplificateur contenant une telle fibre, Brevet International EP0302602, 2003
B3. Bourova E., Blanchandin S., Leplingard F., Raman-active optical fibre for multi-wavelength laser, Brevet International EP0309287, 2003
B4. Bastian G., Bourova E., Raman amplifier system, Brevet International EP03290956.6, 2003
B5. Burov E ; Moreau C.; Leplingard F. ; Lorcy L.; Bigot L. , A Raman Diffusion Optical amplifier, Brevet International KP20070114188, 2007
B6. Bourova E., Simonneau C., Martinelli C., Provost L., Doped-ring amplifying optical fiber and amplifier containing such a fiber, US2008056659, 2008
B7. MelinG.; Martinelli C; Burov E., Raman effect amplifier comprising PCF optical fibres and method of manufacturing a Raman effect amplifier comprising PCF fibres, Brevet International EP1873876, 2008
B8. Burov E.; Gasca L.; Blanchandin S.; Collet C.; Poumellec B.; Manolescu G., Favaro L.; Moreau C. , Wide, flat optical fibre with Raman gain, Brevet International EP1908735 , 2008
B9.Burov E.; Pastouret A., Gasca L., Collet C., Amplifier optical fiber comprising nanoparticles and production method ; Brevet International EP20090001888 , 2009
B10. Boivin D.; Pastouret A; .Burov E; Gonnet C., Rare-Earth-Doped Optical Fiber, Brevet International
B11 Pastouret A; .Burov E; Gonnet C, Amplifying optical fibre and production method, Brevet International EP2194620, 2009
B12. Simonneau C ; Burov E; Fevrier S.; Rare-earth-doped fiber optic device for the emission or amplification of a signal in the s-band, WO2009068800, 2009
B13 Pastouret A; Burov E., Boivin D., Collet C. , Cavani O., Amplifying Optical fiber and Method of manufacturing; US2010/0118388, 2010
B14. Burov E., Pastouret A., Gonnet C., Collet C. et C. Cavani, Optical fiber ampliefier having nanostructures, US2010/0214649, 2010
B15 Burov E.; Pastouret A., Regnier E., Amplificateur de fibre optique résistant aux radiations par ionisation, EP 2194408 , 2010
B16. Bergonzo A., Burov E., Pastouret A, Geerings S., Gooijer F., Regnier E., Procédé de traitement de fibres optiques au deuterium, EP 2230221 , 2010
B17. Richard S., Burov E. and A. Pastouret, Optical fiber for sum-frequency generation, US2011/0069724, 2011
B18 Burov E., Pastouret A., Simonneau C., Gasac L. et C. Collet, rare-eart-doped fiber optic waveguide and optical device comprising it, US2011/0158595, 2011
B19. Bergonzo A., Burov E., De Montmorillon L-A., Pastouret A, Fibre optique d’amplification dopée par des terres rares pour dispositifs compacts et procédé de fabrication correspondant, EP 2495589 , 2012
B20 Boivin D, Pastouret A., Burov E and C.Gonnet, .Fibre optique dopée en terres rares présentant de faibles interactions entre les éléments dopants, EP 2463970 , 2012
B21 Boivin D, Burov E, Melin G., Pastouret A., Fibre optique dopée en terres rares insensible aux irradiations, EP 2457882 , 2012
C: Résumés et actes de colloques internationaux:
C1. Bourova E., Richet P., High-temperature X-ray diffraction of quartz and cristobalite, Proceeding of the XVI general meeting of International Mineralogical Association, Pisa, 4-9 septembre 1994.
C2. Bourova E., Richet P., High-temperature X-ray diffraction of quartz, cristobalite and coesite, Proceedings of the MINERALOGIE 95, Strasbourg 11-14 September 1995.
C3. Bourova E., Parker S. et P. Richet, Atomistic Simulation of Quartz and Cristobalite at High Temperature, Annales Geophysical, Part I, Supplement I to Volume 16, EGS, C248, 1998.
C4. Bourova E., Parker, S. et P. Richet, La simulation atomistique du quartz et cristobalite à haute température, Journées simulation numérique, matière condensée et désordre, Interface simulation/expérience, Quatrième édition, Paris, 25-26 mai 1998.
C5. Bourova E., Parker, S. et P. Richet, La simulation atomistique de la coesite à haute température, Journées simulation numérique, matière condensée et désordre, Interface simulation / expérience, Cinquième édition, Paris, 5-7 juin 1999.
C6. Bourova E., Parker S. et P. Richet, Que nous apprend la simulation numérique sur les anomalies thermiques des propriétés physiques des polymorphes de SiO2 ? , Journées simulation numérique, matière condensée et désordre, Interface simulation / expérience, Sixième édition, Paris, 5-7 juin 2000
C7. Bourova E., Parker S. et P.Richet, Harmonic and anharmonic aspects of silica polymorphs at extreme temperatures, 19th European Crystallographic Meeting, Nancy, 25-30 august, 2000.
C8. Bourova E., Khavrychenko V.D., Poumellec B., Borjon C., Effet Raman stimulé dans les fibres optiques et modélisation numérique à l’échelle microscopique, Journées simulation numérique, matière condensée et désordre, Interface simulation / expérience, Huitième édition, Paris, 27-28 mai, 2002.
C9. Mongardien D.A., Borne S., Mélin G., Fleureau A., Lempereur S., Burov E., Maerten S., Simonneau C., J.P. Hamaide, 10Gb/s WDM Operation of a Lumped Raman Fiber Amplifier Using Highly Non-Linear Ge-Doped Photonic Crystal Fiber, ECOC’06, Ph Th4-2-6, 2006
C10. Gabet, R. Hamel, P. ; Obaton, A-F. ; Burov, E. ; Melin, G. ; Jaouen, Y. Modal Analysis and Spatial Dispersion Evolution in PCF Fibres , ECOC’06, 2006
C11. Mélin G., Lempereur S, Fleureau A, Galkovsky L., Richard S., Maerten H., Burov E., Nouchi P., Fabrication and characterization of germanium doped highly non-linear photonic crystal fibres, in Proc. of SPIE Vol. 6990 699003, 2008
C12. Régnier, E.; Burov, E.; Pastouret, A.; Boivin, D.; Kuyt, G.; Gooijer, F.; Bergonzo, A.; Berkers, A.; Signoret, P.; Troussellier, L.; Storaasli, O.; Nouchi, P.., Recent developments in optical fibers and how defense, security and sensing can benefit, SPIE Defense Security Sensing Conference, 2009
C13. Thomas J, Myara M., Troussellier L, Régnier E., Burov E., Gilard O., Sottom M., P. Signoret, Experimental demonstration of the switching dose-rate method on doped optical fibers, , CSO 2010 Rhodes, Greece International Conference on Space Optics 4 – 8 October 2010
C14. G.Melin, A.Amercuza, F.Gooijer, G.Kuyt, E.Burov , A.Pastouret, Radiation hardened optical fibers : Draka solutions, Journées “tenue des fibres optiques en milieu radiative”, Saint-Etienne, 4-5 Octobre, 2010
C15. E. Burov, A. Pastouret, E. Aldea, B. Overton, F. Gooijer, A. Bergonzo, GFOC Project results: High Temperature / High Pressure, Hydrogen Tolerant Optical Fiber, SEAFOM, 2010
C16. E.Burov, P.Sansonetti, A.Bergonzo, G.Melin, F.Gooijer, A.Amercuza, T.Angers, M.Lowell, Optical fiber sensor for the harsh environment: Recent development and fiber/cable solution, Journées Nationales des capteurs , Saint-Etienne, Février, 2011
C17. Thomas, J. ; Myara, M. ; Troussellier, L. ; Signoret, P. ; Burov, E. ; Regnier, E. ; Gilard, O. ; Sotom, M. A new photonic-devices assessment-method for space applications , ICO, 2011
C18. Jaouën Y., Canat G., Sikali Mamdem Y., Gabet R., Lombard L. and E.Burov, Stimulated Brillouin Scattering in Specialty Optical Fibers: Importance of Material, Structure and Manufacturing Parameters, CLEO: Science and Innovations, San Jose, California May 6, 2012
C19. Heili M ., Lancry M., Burov E; Le Losq, Neuville D. and B. Poumellec, Impact of fictive temperture on glass density and structure of Ge-doped silica glass, 9th Symposium SiO2 Advanced Dielectrics and Related Devices on 17-20 June 2012.