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Characterization of soot from multimode vapor-phase axial deposition (VAD) optical fiber preformsPOTKAY, E; CLARK, H. R; SMYTH, I. P et al.Journal of lightwave technology. 1988, Vol 6, Num 8, pp 1338-1347, issn 0733-8724Article

Fine glass particle-deposition mechanism in the VAD processSUDA, H; SUDO, S; NAKAHARA, M et al.Fiber and integrated optics. 1983, Vol 4, Num 4, pp 427-437, issn 0146-8030Article

High rate fabrication technique for VAD optical fiber preformsSUDA, H; CHIDA, K; SUDO, S et al.Review of the electrical communication laboratories. 1984, Vol 32, Num 3, pp 418-424, issn 0029-067XArticle

Direct observation of sintering of VAD soot particles by hot stage scanning electron microscopyBISWAS, D. R; NATH, D. K.Journal of materials science letters. 1983, Vol 2, Num 6, pp 245-248, issn 0261-8028Article

Optimierung des Brechzahlverlaufs an aussenbeschichteten Lichtwellenleitern (VAD-Profile) = Optimalisation du profil d'indice de fibres optiques fabriquées par un procédé extérieurs (profils obtenus par dépôt axial en phase vapeur) = Optimisation of the refractive index profile of outside coated optical fibers (VAD profiles)HANSSKE, A.Nachrichtentechnik. Elektronik. 1986, Vol 36, Num 4, issn 0323-4657, 143Article

Transmission characteristics of a single-mode fiber in the 1.3.-μm wavelength regionISHIDA, Y; OHASHI, M; UESUGI, N et al.Journal of lightwave technology. 1984, Vol 2, Num 3, pp 322-327, issn 0733-8724Article

VAD graded-index optical fiber fabricationCHIDA, K; HANAWA, F; NAKAHARA, M et al.Review of the electrical communication laboratories. 1984, Vol 32, Num 3, pp 404-410, issn 0029-067XArticle

Recent developments in vapor phase axial depositionMURATA, H.Journal of lightwave technology. 1986, Vol 4, Num 8, pp 1026-1033, issn 0733-8724Article

Representation of the vapor-phase axial deposition helical layer structure through a spiral transformationPOTKAY, E.Journal of applied physics. 1985, Vol 57, Num 5, pp 1509-1517, issn 0021-8979Article

Optical fiber fabrication and splicing techniquesCHIDA, K; ARIOKA, R; YOSHIZAWA, T et al.Bulletin of the Japan Society of Precision Engineering. 1984, Vol 18, Num 2, pp 132-138, issn 0582-4206Article

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Loss increase in deuterium-doped VAD fibres with heat treatmentNAKAHARA, M; OHMORI, Y; ITOH, H et al.Electronics Letters. 1984, Vol 20, Num 8, pp 327-329, issn 0013-5194Article

Temperature measurements in a vapor deposition flame by spontaneous Raman spectroscopyALLENDORF, M. D; BAUTISTA, J. R; POTKAY, E et al.Journal of applied physics. 1989, Vol 66, Num 10, pp 5046-5051, issn 0021-8979, 6 p.Article

Launching condition dependence of bandwidth in graded-index multimode fibers fabricated by MCVD or VAD methodYAMASHITA, K; KOYAMADA, Y; HATANO, Y et al.Journal of lightwave technology. 1985, Vol 3, Num 3, pp 601-607, issn 0733-8724Article

Fabrication of antimony oxide-doped silica fibres by the VAD processSHIMIZU, M; OHMORI, Y; NAKAHARA, M et al.Electronics Letters. 1985, Vol 21, Num 19, pp 872-873, issn 0013-5194Article

Chlorination and vaporization of GeO₂ component in SiO₂:Ge₂ porous preform in dehydration process by VAD method and spontaneous formation of SiO₂ cladding layer during the dehydration by selective vaporization of GeO₂SANADA, K; MORIYAMA, T; INADA, K et al.Journal of non-crystalline solids. 1996, Vol 194, Num 1-2, pp 163-172, issn 0022-3093Article

Microlens for coupling a semiconductor laser to a single-mode fiberGHAFOORI-SHIRAZ, H; ASANO, T.Optics letters. 1986, Vol 11, Num 8, pp 537-539, issn 0146-9592Article

Structural inhomogeneity in Ge-doped silica core of optical fibers made by the VAD methodNAGASAWA, K; OHKI, Y.Japanese journal of applied physics. 1986, Vol 25, Num 8, pp L682-L683, issn 0021-4922, 2Article

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Crystalline and amorphous phases of GeO₂ in VAD silica-germania soot preformSEKIYA, E. H; TORIKAI, D; GUSKEN, E et al.Journal of non-crystalline solids. 2000, Vol 273, Num 1-3, pp 228-232, issn 0022-3093Conference Paper