PUBLICATIONS

1 Core-clad phosphate glass fibers for biosensing
mishra, F. Desevedavy, petit, F. Smektala, massera,
Mater. Sci. Eng. C-Mater. Biol. Appl. , 96, 458-465, 2019. Citation : 0.
2 Mid-infrared supercontinuum generation from 2 to 14 mu m in arsenic- and antimony-free chalcogenide glass fibers
lemiere, Frederic Desevedavy, Pierre Mathey, froidevaux, Gregory Gadret, Jean-Charles Jules, aquilina, Bertrand Kibler, Pierre Bejot, Franck Billard, Olivier Faucher, Frederic Smektala,
J. Opt. Soc. Am. B-Opt. Phys. , 36, , 2019. Citation : 1.
3 Expanding up to far-infrared filamentation-induced supercontinuum spanning in chalcogenide glasses
LABEX
mouawad, P. Bejot, P. Mathey, froidevaux, lemiere, F. Billard, B. Kibler, F. Desevedavy, G. Gadret, J. -C. Jules, O. Faucher, F. Smektala,
Appl. Phys. B-Lasers Opt. , 124, 182, 2018. Citation : 1.
4 Dispersion-Engineered Step-Index Tellurite Fibers for Mid-Infrared Coherent Supercontinuum Generation from 1.5 to 4.5 mu m with Sub-Nanojoule Femtosecond Pump Pulses
LABEX
froidevaux, lemiere, Bertrand Kibler, Frederic Desevedavy, Pierre Mathey, Gregory Gadret, Jean-Charles Jules, nagasaka, suzuki, ohishi, Frederic Smektala,
Appl. Sci.-Basel , 8, 1875, 2018. Citation : 1.
5 Tailoring supercontinuum generation beyond 2 mu m in step-index tellurite fibers
LABEX
strutynski, froidevaux, Frederic Desevedavy, Jean-Charles Jules, Gregory Gadret, bendahmane, tarnowski, Bertrand Kibler, Frederic Smektala,
Opt. Lett. , 42, 247-250, 2017. Citation : 9.
6 High repetition rate mid-infrared supercontinuum generation from 1.3 to 5.3 mu m in robust step-index tellurite fibers
LABEX
kedenburg, strutynski, Bertrand Kibler, froidevaux, Frederic Desevedavy, Gregory Gadret, Jean-Charles Jules, steinle, moerz, steinmann, giessen, Frederic Smektala,
J. Opt. Soc. Am. B-Opt. Phys. , 34, 601-607, 2017. Citation : 16.
7 Tellurite-based core-clad dual-electrodes composite fibers
strutynski, F. Desevedavy, lemiere, J. -C. Jules, G. Gadret, cardinal, F. Smektala, danto,
Opt. Mater. Express , 7, 1503-1508, 2017. Citation : 2.
8 Optical aging observation in suspended core tellurite microstructured fibers under atmospheric conditions
LABEX
strutynski, mouawad, picot-clemente, froidevaux, F. Desevedavy, G. Gadret, J. -C. Jules, B. Kibler, F. Smektala,
Opt. Fiber Technol. , 38, 154-159, 2017. Citation : 1.
9 Photowritable Silver-Containing Phosphate Glass Ribbon Fibers
danto, Frederic Desevedavy, petit, desmoulin, khalil, strutynski, dussauze, Frederic Smektala, cardinal, canioni,
Adv. Opt. Mater. , 4, 162-168, 2016. Citation : 7.
10 Compact supercontinuum sources based on tellurite suspended core fibers for absorption spectroscopy beyond 2 mu m
LABEX
strutynski, picot-clemente, Frederic Desevedavy, Jean-Charles Jules, Gregory Gadret, Bertrand Kibler, Frederic Smektala,
Laser Phys. Lett. , 13, 075402, 2016. Citation : 5.
11 Experimental long-term survey of mid-infrared supercontinuum source based on As2S3 suspended-core fibers
LABEX
mouawad, kedenburg, steinle, steinmann, B. Kibler, F. Desevedavy, G. Gadret, J-C Jules, giessen, F. Smektala,
Appl. Phys. B-Lasers Opt. , 122, 177, 2016. Citation : 2.
12 Filamentation-induced spectral broadening and pulse shortening of infrared pulses in Tellurite glass
LABEX
P. Bejot, F. Billard, peureux, diard, picot-clemente, strutynski, P. Mathey, mouawad, O. Faucher, nagasaka, ohishi, F. Smektala,
Opt. Commun. , 380, 245-249, 2016. Citation : 6.
13 Fabrication and characterization of step-index tellurite fibers with varying numerical aperture for near- and mid-infrared nonlinear optics
LABEX
strutynski, picot-clemente, lemiere, froidevaux, Frederic Desevedavy, Gregory Gadret, Jean-Charles Jules, Bertrand Kibler, Frederic Smektala,
J. Opt. Soc. Am. B-Opt. Phys. , 33, , 2016. Citation : 9.
14 Fossil avian eggs from the Palaeogene of southern France: new size estimates and a possible taxonomic identification of the egg-layer
angst, buffetaut, lecuyer, amiot, F. Smektala, giner, mechin, mechin, amoros, L. Leroy, guiomar, tong, martinez,
Geol. Mag. , 152, 70-79, 2015. Citation : 3.
15 Atmospheric aging and surface degradation in As2S3 fibers in relation with suspended-core profile
LABEX
mouawad, vitry, strutynski, picot-clemente, F. Desevedavy, G. Gadret, J. -C. Jules, E. Lesniewska, F. Smektala,
Opt. Mater. , 44, 25-32, 2015. Citation : 4.
16 Enhanced supercontinuum generation in tapered tellurite suspended core fiber
picot-clemente, strutynski, amrani, F. Desevedavy, J-C Jules, G. Gadret, deng, cheng, nagasaka, ohishi, B. Kibler, F. Smektala,
Opt. Commun. , 354, 374-379, 2015. Citation : 17.
17 Mid-infrared filamentation-induced supercontinuum in As-S and an As-free Ge-S counterpart chalcogenide glasses
LABEX
mouawad, P. Bejot, F. Billard, P. Mathey, B. Kibler, F. Desevedavy, G. Gadret, J. -C. Jules, O. Faucher, F. Smektala,
Appl. Phys. B-Lasers Opt. , 121, 433-438, 2015. Citation : 14.
18 Multioctave midinfrared supercontinuum generation in suspended-core chalcogenide fibers
LABEX
mouawad, picot-clemente, amrani, strutynski, J. Fatome, B. Kibler, F. Desevedavy, G. Gadret, J. -C. Jules, deng, ohishi, F. Smektala,
Opt. Lett. , 39, 2684-2687, 2014. Citation : 48.
19 Impact of optical and structural aging in As2S3 microstructured optical fibers on mid-infrared supercontinuum generation
LABEX
mouawad, amrani, B. Kibler, picot-clemente, strutynski, J. Fatome, F. Desevedavy, G. Gadret, J-C Jules, O. Heintz, E. Lesniewska, F. Smektala,
Opt. Express , 22, 23912-23919, 2014. Citation : 14.
20 Optical aging behaviour naturally induced on As2S3 microstructured optical fibres
LABEX
mouawad, strutynski, picot-clemente, F. Desevedavy, G. Gadret, J-C Jules, F. Smektala,
Opt. Mater. Express , 4, 2190-2203, 2014. Citation : 13.
21 Rivers as repositories for fossil vertebrates: a case study from the Upper Cretaceous of southern France
Franck Smektala, buffetaut, deconinck,
Proc. Geol. Assoc. , 125, 567-577, 2014. Citation : 3.
22 Management of OH absorption in tellurite optical fibers and related supercontinuum generation
LABEX
savelii, Frederic Desevedavy, Jean-Charles Jules, Gregory Gadret, Julien Fatome, Bertrand Kibler, kawashima, ohishi, Frederic Smektala,
Opt. Mater. , 35, 1595-1599, 2013. Citation : 28.
23 Photosensitivity and second harmonic generation in chalcogenide arsenic sulfide poled glasses
dussauze, zheng, rodriguez, fargin, cardinal, Frederic Smektala,
Opt. Mater. Express , 2, 45-54, 2012. Citation : 7.
24 Mid-infrared 2000-nm bandwidth supercontinuum generation in suspended-core microstructured Sulfide and Tellurite optical fibers
savelii, mouawad, J. Fatome, B. Kibler, F. Desevedavy, G. Gadret, J-C Jules, bony, kawashima, gao, kohoutek, suzuki, ohishi, F. Smektala,
Opt. Express , 20, 27083-27093, 2012. Citation : 69.
25 Suppression of the frequency drift of modulational instability sidebands by means of a fiber system associated with a photon reservoir
abou'ou, dinda, ngabireng, B. Kibler, F. Smektala, porsezian,
Opt. Lett. , 36, 256-258, 2011. Citation : 3.
26 Mid-infrared extension of supercontinuum in chalcogenide suspended core fibre through soliton gas pumping
J. Fatome, B. Kibler, el-amraoui, J. -C. Jules, G. Gadret, F. Desevedavy, F. Smektala,
Electron. Lett. , 47, 398-399, 2011. Citation : 16.
27 Fabrication and characterization of femtosecond laser induced microstructures in chalcohalide glasses
zheng, tao, lin, zhao, G. Gadret, J. -C. Jules, F. Smektala,
J. Optoelectron. Adv. Mater. , 13, 173-177, 2011. Citation : 0.
28 Impact of the material absorption on the modulational instability spectra of wave propagation in high-index glass fibers
abou'ou, dinda, ngabireng, B. Kibler, F. Smektala,
J. Opt. Soc. Am. B-Opt. Phys. , 28, 1518-1528, 2011. Citation : 17.
29 Fourth-order cascaded Raman shift in AsSe chalcogenide suspended-core fiber pumped at 2 mu m
duhant, renard, canat, nguyen, F. Smektala, troles, coulombier, toupin, brilland, bourdon, renversez,
Opt. Lett. , 36, 2859-2861, 2011. Citation : 38.
30 Suspended core tellurite glass optical fibers for infrared supercontinuum generation
savelii, J. C. Jules, G. Gadret, B. Kibler, J. Fatome, el-amraoui, manikandan, zheng, F. Desevedavy, dudley, troles, brilland, renversez, F. Smektala,
Opt. Mater. , 33, 1661-1666, 2011. Citation : 27.
31 Visible Light Generation and Its Influence on Supercontinuum in Chalcogenide As2S3 Microstructured Optical Fiber
gao, liao, yan, kito, kohoutek, suzuki, el-amraoui, Jean-Charles Jules, Gregory Gadret, Frederic Desevedavy, Frederic Smektala, ohishi,
Appl. Phys. Express , 4, 102601, 2011. Citation : 25.
32 Strong infrared spectral broadening in low-loss As-S chalcogenide suspended core microstructured optical fibers
el-amraoui, J. Fatome, J. C. Jules, B. Kibler, G. Gadret, fortier, F. Smektala, skripatchev, polacchini, messaddeq, troles, brilland, szpulak, renversez,
Opt. Express , 18, 4547-4556, 2010. Citation : 108.
33 Casting method for producing low-loss chalcogenide microstructured optical fibers
coulombier, brilland, houizot, chartier, n'guyen, Frederic Smektala, renversez, monteville, mechin, pain, orain, sangleboeuf, troles,
Opt. Express , 18, 9107-9112, 2010. Citation : 86.
34 Chalcogenide glass hollow core photonic crystal fibers
Frederic Desevedavy, renversez, troles, houizot, brilland, vasilief, coulombier, traynor, Frederic Smektala, adam,
Opt. Mater. , 32, 1532-1539, 2010. Citation : 36.
35 Theoretical study of cascade laser in erbium-doped chalcogenide glass fibers
prudenzano, mescia, allegretti, moizan, nazabal, Frederic Smektala,
Opt. Mater. , 33, 241-245, 2010. Citation : 29.
36 Microstructured chalcogenide optical fibers from As2S3 glass: towards new IR broadband sources
el-amraoui, G. Gadret, J. C. Jules, J. Fatome, fortier, F. Desevedavy, skripatchev, messaddeq, troles, brilland, gao, suzuki, ohishi, F. Smektala,
Opt. Express , 18, 26655-26665, 2010. Citation : 95.
37 Low loss microstructured chalcogenide fibers for large non linear effects at 1995 nm
troles, coulombier, canat, duhant, renard, toupin, calvez, renversez, F. Smektala, amraoui, adam, chartier, mechin, brilland,
Opt. Express , 18, 26647-26654, 2010. Citation : 77.
38 Chalcogenide Microstructured Fibers for Infrared Systems, Elaboration Modelization, and Characterization
troles, brilland, F. Smektala, houizot, F. Desevedavy, coulombier, traynor, chartier, nguyen, adam, renversez,
Fiber Integrated Opt. , 28, 11-26, 2009. Citation : 27.
39 Demonstration of a reef knot microfiber resonator
vienne, Aurelien Coillet, Philippe Grelu, amraoui, Jean-Charles Jules, Frederic Smektala, tong,
Opt. Express , 17, 6224-6229, 2009. Citation : 36.
40 Simulation of mid-IR amplification in Er3+-doped chalcogenide microstructured optical fiber
prudenzano, mescia, allegretti, sario, F. Smektala, moizan, nazabal, troles, doualan, canat, adam, boulard,
Opt. Mater. , 31, 1292-1295, 2009. Citation : 25.
41 Linear and Nonlinear Characterizations of Chalcogenide Photonic Crystal Fibers
Julien Fatome, fortier, nguyen, chartier, Frederic Smektala, messaad, Bertrand Kibler, Stephane Pitois, Gregory Gadret, Christophe Finot, troles, Frederic Desevedavy, houizot, renversez, brilland, traynor,
J. Lightwave Technol. , 27, 1707-1715, 2009. Citation : 51.
42 Design of Er3+-doped chalcogenide glass laser for MID-IR application
prudenzano, mescia, allegretti, sario, palmisano, F. Smektala, moizan, nazabal, troles,
J. Non-Cryst. Solids , 355, 1145-1148, 2009. Citation : 28.
43 Te-As-Se glass microstructured optical fiber for the middle infrared
Frederic Desevedavy, renversez, troles, brilland, houizot, coulombier, Frederic Smektala, traynor, adam,
Appl. Optics , 48, 3860-3865, 2009. Citation : 21.
44 Aqueous Corrosion of the GeSe4 Chalcogenide Glass: Surface Properties and Corrosion Mechanism
niu, guin, rouxel, abdelouas, troles, Frederic Smektala,
J. Am. Ceram. Soc. , 92, 1779-1787, 2009. Citation : 13.
45 Infrared monitoring of underground CO2 storage using chalcogenide glass fibers
charpentier, bureau, troles, boussard-pledel, pierres, Frederic Smektala, adam,
Opt. Mater. , 31, 496-500, 2009. Citation : 48.
46 CO2 Detection Using Microstructured Chalcogenide Fibers
charpentier, troles, coulombier, brilland, houizot, F. Smektala, boussard-pledel, nazabal, thibaud, pierres, renversez, bureau,
Sens. Lett. , 7, 745-749, 2009. Citation : 30.
47 Feasibility of Er3+-doped, Ga5Ge20Sb10S65 chalcogenide microstructured optical fiber amplifiers
sario, mescia, prudenzano, F. Smektala, deseveday, nazabal, troles, brilland,
Opt. Laser Technol. , 41, 99-106, 2009. Citation : 29.
48 Small-core chalcogenide microstructured fibers for the infrared
Frederic Desevedavy, renversez, brilland, houizot, troles, coulombier, Frederic Smektala, traynor, adam,
Appl. Optics , 47, 6014-6021, 2008. Citation : 48.
49 Optical and structural properties of new chalcohalide glasses
guignard, nazabal, moreac, cherukulappurath, boudebs, zeghlache, martinelli, quiquempois, F. Smektala, adam,
J. Non-Cryst. Solids , 354, 1322-1326, 2008. Citation : 22.
50 Synthesis and characterization of chalcogenide glasses from the system Ga-Ge-Sb-S and preparation of a single-mode fiber at 1.55 mu m
troles, niu, duverger-arfuso, F. Smektala, brilland, nazabal, moizan, F. Desevedavy, houizot,
Mater. Res. Bull. , 43, 976-982, 2008. Citation : 34.
51 Experimental investigation of Brillouin and Raman scattering in a 2SG sulfide glass microstructured chalcogenide fiber
fortier, J. Fatome, S. Pitois, F. Smektala, G. Millot, troles, F. Desevedavy, houizot, brilland, traynor,
Opt. Express , 16, 9398-9404, 2008. Citation : 15.
52 Er3+-doped GeGaSbS glasses for mid-IR fibre laser application: Synthesis and rare earth spectroscopy
moizan, nazabal, troles, houizot, adam, doualan, moncorge, Frederic Smektala, Gregory Gadret, Stephane Pitois, canat,
Opt. Mater. , 31, 39-46, 2008. Citation : 99.
53 Selenide glass single mode optical fiber for nonlinear optics
houizot, Frederic Smektala, couderc, troles, grossard,
Opt. Mater. , 29, 651-656, 2007. Citation : 27.
54 Manifestation of electron-phonon interactions in IR-induced second harmonic generation in a sulphide glass-ceramic with beta-GeS2 microcrystallites
kityk, guignard, nazabal, zhang, troles, F. Smektala, sahraoui, boudebs,
Physica B , 391, 222-227, 2007. Citation : 20.
55 Crystalline phase responsible for the permanent second-harmonic generation in chalcogenide glass-ceramics
guignard, nazabal, zhang, Frederic Smektala, moreac, pechev, zeghlache, kudlinski, martinelli, quiquempois,
Opt. Mater. , 30, 338-345, 2007. Citation : 20.
56 Chalcogenide glasses based on germanium disulfide for second harmonic generation
guignard, nazabal, Frederic Smektala, adam, bohnke, duverger, moreac, zeghlache, kudlinski, martinelli, quiquempois,
Adv. Funct. Mater. , 17, 3284-3294, 2007. Citation : 41.
57 Chalcogenide glass-ceramics for second harmonic generation
guignard, nazabal, ma, zhang, zeghlache, martinelli, quiquempois, F. Smektala,
Phys. Chem. Glasses-Eur. J. Glass Sci. Technol. Part B , 48, 19-22, 2007. Citation : 1.
58 Analysis of rare-earth ion spatial distribution in fluorophosphate glasses in terms of segregation phenomenon
bocharova, adam, karapetyan, F. Smektala, mironov, tagil'tseva,
J. Phys. Chem. Solids , 68, 978-982, 2007. Citation : 7.
59 Stabilization of the second-order susceptibility induced in a sulfide chalcogenide glass by thermal poling
zeghlache, guignard, kudlinski, quiquempois, martinelli, nazabal, F. Smektala,
J. Appl. Phys. , 101, 084905, 2007. Citation : 7.
60 High second-order nonlinear susceptibility induced in chalcogenide glasses by thermal poling
guignard, nazabal, F Smektala, zeghlache, kudlinski, quiquempois, martinelli,
Opt. Express , 14, 1524-1532, 2006. Citation : 29.
61 Fabrication of complex structures of Holey Fibers in chalcogenide glass
brilland, F Smektala, renversez, chartier, troles, nguyen, traynor, monteville,
Opt. Express , 14, 1280-1285, 2006. Citation : 129.
62 Characterization of new sulfur and selenium-based glasses containing lead iodide
troles, F Smektala, jestin, begoin, danto, guignard,
J. Non-Cryst. Solids , 352, 248-254, 2006. Citation : 6.
63 Light guidance in new chalcogenide holey fibres from GeGaSbS glass
person, F. Smektala, chartier, brilland, jouan, troles, bosc,
Mater. Res. Bull. , 41, 1303-1309, 2006. Citation : 17.
64 A family of far-infrared-transmitting glasses in the Ga-Ge-Te system for space applications
danto, houizot, boussard-pledel, zhang, Frederic Smektala, lucas,
Adv. Funct. Mater. , 16, 1847-1852, 2006. Citation : 127.
65 Second-harmonic generation of thermally poled chalcogenide glass
guignard, nazabal, troles, F Smektala, zeghlache, quiquempois, kudlinski, martinelli,
Opt. Express , 13, 789-795, 2005. Citation : 45.
66 Photo-excited desorption of multi-component systems: Application to chalcogenide glasses
mihesan, gurlui, ziskind, chazallon, martinelli, zeghlache, guignard, nazabal, F Smektala, focsa,
Appl. Surf. Sci. , 248, 224-230, 2005. Citation : 8.
67 Fabrication and characterization of new Er3+ doped niobium borophosphate glass fiber
petit, cardinal, videau, F Smektala, jouan, richardson, schulte,
Mater. Sci. Eng. B-Solid State Mater. Adv. Technol. , 117, 283-286, 2005. Citation : 5.
68 Selenium-tellurium sequences in binary glasses as depicted by Se-77 and Te-125 NMR
bureau, boussard-pledel, lefloch, troles, F Smektala, lucas,
J. Phys. Chem. B , 109, 6130-6135, 2005. Citation : 26.
69 Symmetry and phase-matching properties of third-harmonic generation under the photoelastic effect in Ge-As-Se chalcogenide glasses
douady, boulanger, fuchs, F Smektala, troles,
J. Opt. Soc. Am. B-Opt. Phys. , 22, 1486-1492, 2005. Citation : 3.
70 Properties and structure of high erbium doped phosphate glass for short optical fibers amplifiers
seneschal, F Smektala, bureau, floch, jiang, luo, lucas, peyghambarian,
Mater. Res. Bull. , 40, 1433-1442, 2005. Citation : 20.
71 First structural insight of new fluoroarsenate glasses by Raman and NMR spectroscopies
houizot, bureau, adam, F Smektala, silly, buzare, boulard,
Phys. Chem. Glasses , 46, 262-266, 2005. Citation : 0.
72 Linear optical characterization of chalcogenide glasses
boudebs, cherukulappurath, guignard, troles, F Smektala, sanchez,
Opt. Commun. , 230, 331-336, 2004. Citation : 39.
73 Experimental observation of higher order nonlinear absorption in tellurium based chalcogenide glasses
boudebs, cherukulappurath, guignard, troles, F Smektala, sanchez,
Opt. Commun. , 232, 417-423, 2004. Citation : 31.
74 Two- and three-photon nonlinear absorption in As2Se3 chalcogenide glass: Theory and experiment
sanchez, boudebs, cherukulappurath, leblond, troles, F Smektala,
J. Nonlinear Opt. Phys. Mater. , 13, 7-16, 2004. Citation : 17.
75 Chalcogenide glasses as solid state optical limiters at 1.064 mu m
troles, F Smektala, boudebs, monteil, bureau, lucas,
Opt. Mater. , 25, 231-237, 2004. Citation : 42.
76 Linear and nonlinear optical characterization of tellurium based chalcogenide glasses
cherukulappurath, guignard, marchand, F Smektala, boudebs,
Opt. Commun. , 242, 313-319, 2004. Citation : 29.
77 Recent advances in chalcogenide glasses
bureau, zhang, F Smektala, adam, troles, ma, boussard-pledel, lucas, lucas, coq, riley, simmons,
J. Non-Cryst. Solids , 345, 276-283, 2004. Citation : 218.
78 Germanium selenide glass structures studied by Se-77 solid state NMR and mass spectroscopy
bureau, troles, floch, guenot, F Smektala, lucas,
J. Non-Cryst. Solids , 319, 145-153, 2003. Citation : 51.
79 Solid state Se-77 NMR investigations on arsenic-selenium glasses and crystals
bureau, troles, lefloch, F Smektala, silly, lucas,
Solid State Sci. , 5, 219-224, 2003. Citation : 61.
80 Third order nonlinear optical characterization of new chalcohalogenide glasses containing lead iodine
troles, F Smektala, boudebs, monteil,
Opt. Mater. , 22, 335-343, 2003. Citation : 30.
81 Alkaline-free phosphate glasses for ultra compact optical fiber amplifiers at 1.5 mu m
seneschal, F Smektala, jiang, luo, bureau, lucas, peyghambarian,
J. Non-Cryst. Solids , 324, 179-186, 2003. Citation : 23.
82 Medium range order studied in selenide glasses by Se-77 NMR
bureau, troles, floch, F Smektala, lucas,
J. Non-Cryst. Solids , 326, 58-63, 2003. Citation : 76.
83 Experimental and theoretical study of higher-order nonlinearities in chalcogenide glasses
boudebs, cherukulappurath, leblond, troles, F Smektala, sanchez,
Opt. Commun. , 219, 427-433, 2003. Citation : 125.
84 Optical limiting behavior of infrared chalcogenide glasses
troles, F Smektala, boudebs, monteil, bureau, lucas,
J. Optoelectron. Adv. Mater. , 4, 729-735, 2002. Citation : 21.
85 Fluorine in optics
lucas, F Smektala, adam,
J. Fluor. Chem. , 114, 113-118, 2002. Citation : 48.
86 Infrared waveguides for applications in telecommunications, chemical sensors and biochemical sensors
F Smektala, bureau, adam, lucas,
J. Phys. IV , 12, 41-51, 2002. Citation : 4.
87 Optical recording of second-order nonlinearity in a chacohalide glass
lopez-lago, couderc, griscom, F Smektala, barthelemy,
J. Phys. IV , 12, 213-214, 2002. Citation : 0.
88 All-optical poling of a chalcohalogenide glass
lopez-lago, couderc, griscom, F Smektala, barthelemy,
Opt. Mater. , 16, 413-416, 2001. Citation : 21.
89 Chalcogenide glasses with high non linear optical properties for telecommunications
quemard, F Smektala, couderc, barthelemy, lucas,
J. Phys. Chem. Solids , 62, 1435-1440, 2001. Citation : 111.
90 Performance of high-concentration Er3+-Yb3+-codoped phosphate fiber amplifiers
hu, jiang, luo, seneschal, morrell, F Smektala, honkanen, lucas, peyghambarian,
IEEE Photonics Technol. Lett. , 13, 657-659, 2001. Citation : 66.
91 Nonlinear optical properties of chalcogenide glasses: comparison between Mach-Zehnder interferometry and Z-scan techniques
boudebs, sanchez, troles, F Smektala,
Opt. Commun. , 199, 425-433, 2001. Citation : 62.
92 Fluoride glass compositions for waveguide applications
rault, adam, F Smektala, lucas,
J. Fluor. Chem. , 110, 165-173, 2001. Citation : 20.
93 Performance of high-concentration Er3+-doped phosphate fiber amplifiers
hwang, jiang, luo, seneschal, sorbello, morrell, F Smektala, honkanen, lucas, peyghambarian,
IEEE Photonics Technol. Lett. , 13, 197-199, 2001. Citation : 62.
94 Thermal and optical properties of chalcohalide glass
lima, andrade, catunda, lebullenger, F Smektala, jestin, baesso,
J. Non-Cryst. Solids , 284, 203-209, 2001. Citation : 23.
95 Up-conversion processes in Nd3+-doped chloro-sulfide glasses
griscom, balda, mendioroz, F Smektala, fernandez, adam,
J. Non-Cryst. Solids , 284, 268-273, 2001. Citation : 8.
96 Non-linear optical properties of chalcogenide glasses measured by Z-scan
F Smektala, quemard, couderc, barthelemy,
J. Non-Cryst. Solids , 274, 232-237, 2000. Citation : 185.
97 Er3+-doped phosphate glasses for fiber amplifiers with high gain per unit length
jiang, luo, hwang, smekatala, seneschal, lucas, peyghambarian,
J. Non-Cryst. Solids , 263, 364-368, 2000. Citation : 202.
98 Photoinduced surface expansion of fluorozirconate glasses
sramek, F Smektala, xie, douay, niay,
J. Non-Cryst. Solids , 277, 39-44, 2000. Citation : 21.
99 Erbium-doped phosphate glass fibre amplifiers with gain per unit length of 2.1dB/cm
hwang, jiang, luo, watson, honkanen, hu, F Smektala, lucas, peyghambarian,
Electron. Lett. , 35, 1007-1009, 1999. Citation : 20.
100 Spectroscopy of Nd3+ ions in new rare-earth-rich fluoroarsenate glasses
adam, balda, melscoet, F Smektala, lacha, fernandez,
J. Non-Cryst. Solids , 256, 390-395, 1999. Citation : 7.
101 TeX-glass infrared optical fibers delivering medium power from a CO2 laser
F Smektala, foulgoc, neindre, blanchetiere, zhang, lucas,
Opt. Mater. , 13, 271-276, 1999. Citation : 7.
102 New fluoro-arsenate glasses rare earth rich
F Smektala, melscoet, fonteneau, lucas,
J. Non-Cryst. Solids , 239, 156-161, 1998. Citation : 13.
103 Tellurium halide optical fibers
neindre, F Smektala, foulgoc, zhang, lucas,
J. Non-Cryst. Solids , 242, 99-103, 1998. Citation : 19.
104 Chalcogenide glasses with large non-linear refractive indices
F Smektala, quemard, leneindre, lucas, barthelemy, angelis,
J. Non-Cryst. Solids , 239, 139-142, 1998. Citation : 114.
105 Heat capacity measurement of a cadmium fluorochloride glass
matecki, F Smektala, even, bertault, delugeard, lucas,
J. Non-Cryst. Solids , 213, 409-412, 1997. Citation : 2.
106 STABILITY STUDY ON HEATING AND DETERMINATION OF CRITICAL COOLING RATES OF FLUOROZIRCONATE GLASSES
F SMEKTALA, matecki,
J. Non-Cryst. Solids , 184, 314-318, 1995. Citation : 7.
107 DETERMINATION OF ZBLAN GLASS NUCLEATION AND CRYSTALLIZATION CURVES FROM DSC EXPERIMENTS
F SMEKTALA, matecki,
Eur. J. Solid State Inorg. Chem. , 32, 245-250, 1995. Citation : 4.
108 BARIUM INDIUM GALLIUM-BASED FLUORIDE GLASSES FOR ACTIVE INFRARED OPTICAL FIBERS
adam, F SMEKTALA, lucas,
J. Non-Cryst. Solids , 140, 31-34, 1992. Citation : 7.

Conference proceedings

1 Nonlinear glasses-based microstructured or step-index optical fibers: mid-IR supercontinuum generation and IR spectroscopy applications
Frederic Smektala
PROC SPIE , 10100, 2017. Citation : 1.
2 Spectral broadening in low OH content and dispersion-managed tellurite fibres for compact Mid IR sources
strutynski
PROC SPIE , 9507, 950704, 2015. Citation : 1.
3 Mid-infrared supercontinuum generation in suspended-core Chalcogenide and Tellurite optical fibers
savelli
Conference on Lasers and Electro-Optics Europe & International Quantum Electronics Conference (CLEO/Europe-IQEC) , 2013. Citation : 0.
4 Mid-infrared strong spectral broadening in microstructured tapered chalcogenide AsSe fiber
duhant
PROC SPIE , 8237, 823735, 2012. Citation : 6.
5 Selenium nanoparticles synthesized via a facile hydrothermal method
niu
ADV MATER RES-SWITZ , 289, 2012. Citation : 2.
6 Nonlinear effects generation in suspended core chalcogenide fibre
el-amraoui
PROC SPIE , 8073, 2011. Citation : 1.
7 Supercontinuum generation in suspended core microstructured tellurite optical fibers
savelii
PROC SPIE , 8073, 2011. Citation : 1.
8 Fourth Order Cascaded Raman Shift in As38Se62 chalcogenide suspended core fiber pumped at 1.995 mu m
duhant
CONF LASER ELECTR , 2011. Citation : 0.
9 Visible Light Generation and Its Influence to Supercontinuum in As2S3 Microstructured Fiber
gao
CONF LASER ELECTR , 2011. Citation : 0.
10 Nonlinear effects above 2 mu m in chalcogenide suspended core microstructured optical fibers: modeling and experiments
renversez
IEEE Photonics Conference (PHO) , 61, 2011. Citation : 1.
11 Experimental observation of infrared spectral enlargement in As2S3 suspended core microstructured fiber
el-amraoui
PROC SPIE , 7714, 2010. Citation : 0.
12 Fabrication of low losses chalcogenide photonic crystal fibers by molding process
coulombier
PROC SPIE , 7598, 2010. Citation : 1.
13 Recent progress on the realization of chalcogenides Photonic Crystal Fibers
brilland
PROC SPIE , 7212, 2009. Citation : 0.
14 Infrared optical sensor for CO2 detection
charpentier
PROC SPIE , 7356, 2009. Citation : 3.
15 Erbium-Doped Chalcogenide Fiber Ring Laser For Mid-IR Applications
mescia
PROC SPIE , 7366, 2009. Citation : 1.
16 Nonlinear characterisation of an AsSe chalcogenide holey fiber
nguyen
14th OptoElectronics and Communications Conference , 534, 2009. Citation : 0.
17 Reef Knot Microfiber Resonators
vienne
Asia Optical Fiber Communication and Optoelectronic Exposition and Conference , 2009. Citation : 0.
18 Ultra Highly Nonlinear AsSe Chalcogenide Holey Fiber for Nonlinear Applications
nguyen
35th European Conference on Optical Communication (ECOC) , 2009. Citation : 0.
19 Experimental investigation of Brillouin and Raman scattering in a Ge15Sb20S65 microstructured chalcogenide fiber
fortier
34th European Conference on Optical Communication (ECOC) , 2008. Citation : 0.
20 High third and second order non linearities of chalcogenide glasses and fibers for compact infrared non linear devices
F. Smektala
IEEE/LEOS Winter Topical Meeting , 156, 2008. Citation : 0.
21 Mid-infrared fiber laser application: Er3+-doped chalcogenide glasses
moizan
PROC SPIE , 6469, 2007. Citation : 1.
22 Advances in the elaboration of chalcogenide photonic crystal fibers for the mid infrared
F. Smektala
PROC SPIE , 6588, 658803, 2007. Citation : 5.
23 Chalcogenide photonic crystal fibers for near and middle infrared applications
troles
9th International Conference on Transparent Optical Networks (ICTON 2007) , 297, 2007. Citation : 0.
24 Recent advances in the development of holey optical fibers based on sulfide glasses
F. Smektala
PROC SPIE , 6128, 2006. Citation : 0.
25 Performance evaluation of Er3+-doped chalcogenide microstructured optical fiber amplifiers
sario
8th International Conference on Transparent Optical Networks , 207, 2006. Citation : 0.
26 Preparation of chalcogenide step-index and micro-structured fiber for telecommunication
troles
8th International Conference on Transparent Optical Networks , 112, 2006. Citation : 0.
27 Third and second order non linear optical properties of chalcogenide glasses on bulk and fibers
troles
7th International Conference on Transparent Optical Networks , 242-244, 2005. Citation : 1.
28 Nonlinear optical properties of chalcogenide glasses at telecommunication wavelength using nonlinear imaging technique
boudebs
6th International Conference on Transparent Optical Networks (ICTON 2004) , 145-150, 2004. Citation : 1.
29 Third order non linearities of sulfur and selenide glasses at telecommunication wavelengths
F Smektala
PROC SPIE , 5451, 347-353, 2004. Citation : 4.
30 Non linear refractive indices measurements by interferometry techniques
monteil
P SOC PHOTO-OPT INS , 4829, 109-110, 2003. Citation : 0.
31 Third and second order non linear optical properties of Ge-Se-S-As chalcogenide glasses.
F Smektala
P SOC PHOTO-OPT INS , 4628, 30-38, 2002. Citation : 5.
32 Optical properties of Tm3+ ions in GeGaSSb glasses
jurdyc
P SOC PHOTO-OPT INS , 4645, 79-84, 2002. Citation : 3.
33 Optical properties of Er3+ ions in new fluoroarsenate glasses
macdonald
P SOC PHOTO-OPT INS , 4645, 59-70, 2002. Citation : 1.
34 Germanium selenide glass structures studied by Se-77 solid state NMR and mass spectroscopy
bureau
13th International Symposium on Non-Oxide Glasses and New Optical Glasses , 77-80, 2002. Citation : 0.
35 New chalcohalogenide glasses in the As2S3-Sb2S3-Bi2S3-PbI2 system for non linear optical properties
F Smektala
13th International Symposium on Non-Oxide Glasses and New Optical Glasses , 94-97, 2002. Citation : 0.
36 Application of non linear properties of chalcogenide glasses for optical limiting
troles
13th International Symposium on Non-Oxide Glasses and New Optical Glasses , 461-464, 2002. Citation : 0.
37 Er3+-doped alkaline free phosphate glasses for optical fiber amplifiers
seneschal
P SOC PHOTO-OPT INS , 4282, 93-100, 2001. Citation : 5.
38 Fluoroarsenate glasses: a novel rare-earth rich host for optical applications
adam
P SOC PHOTO-OPT INS , 3280, 143-151, 1998. Citation : 6.
39 Preparation, optimization and infrared applications of TeX glass optical fibers
foulgoc
P SOC PHOTO-OPT INS , 3416, 66-72, 1998. Citation : 1.