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SEMI-INSULATING GALLIUM ARSENIDE SUBSTRATES FOR HIGH-FREQUENCY FET AND ICF FABRICATIONWINSTON H.1983; SOLID STATE TECHNOLOGY; ISSN 0038-111X; USA; DA. 1983; VOL. 26; NO 1; PP. 145-150; BIBL. 28 REF.Article

SPREADING RESISTANCE IN SUBMICRON MOSFET'SBACCARANI G; SAI HALASZ GA.1983; ELECTRON DEVICE LETTERS; ISSN 0193-8576; USA; DA. 1983; VOL. 4; NO 2; PP. 27-29; BIBL. 7 REF.Article

FLOAT-ZONING OF SEMICONDUCTOR SILICON: A PERSPECTIVEKRAMER HG.1983; SOLID STATE TECHNOLOGY; ISSN 0038-111X; USA; DA. 1983; VOL. 26; NO 1; PP. 137-142; BIBL. 37 REF.Article

Colossal dielectric constant of poly- and single-crystalline CaCu3Ti4O12 fibres grown by the laser floating zone techniqueAMARAL, F; COSTA, L. C; VALENTE, M. A et al.Acta materialia. 2011, Vol 59, Num 1, pp 102-111, issn 1359-6454, 10 p.Article

Application of asymptotic expansions to model two-dimensional induction heating systems. Part I: Calculation of electromagnetic field distributionBIOUL, F; DUPRET, F.IEEE transactions on magnetics. 2005, Vol 41, Num 9, pp 2496-2505, issn 0018-9464, 10 p.Article

Application of asymptotic expansions to model two-dimensional induction heating systems. Part II: Calculation of equivalent surface stresses and heat fluxBIOUL, F; DUPRET, F.IEEE transactions on magnetics. 2005, Vol 41, Num 9, pp 2506-2514, issn 0018-9464, 9 p.Article

Single crystal growth of the ternary alloy zirconium-niobium-cobalt (Zr68.5Nb30Co1.5) by a floating zone technique = Croissance de monocristaux de l'alliage ternaire zirconium-niobium-cobalt (Zr68,5Nb30Co1,5) par une technique de zone flottanteFLOTTMANN, T; BEYSS, M; PELZER, P et al.Journal of crystal growth. 1988, Vol 87, Num 2-3, pp 213-216, issn 0022-0248Article

A liquid-bridge model for the float-zone processing of materialsBOUCHER, E. A; EVANS, M. J. B.Journal of the Chemical Society. Faraday Transactions I. 1985, Vol 81, Num 11, pp 2787-2796, issn 0300-9599Article

Confinement of thermocapillary floating zone flow by uniform rotationFOWLIS, W. W; ROBERTS, G. O.Journal of crystal growth. 1986, Vol 74, Num 2, pp 301-320, issn 0022-0248Article

Thermocapillary flow in a tough or float zoneSEN, A. K; FLORYAN, J. M; STEEN, P. H et al.European mechanics colloquium. 138. sd, pp 127-128Conference Paper

Laser-diode-heated floating zone (LDFZ) method appropriate to crystal growth of incongruently melting materialsITO, Toshimitsu; USHIYAMA, Tomoharu; YANAGISAWA, Yuji et al.Journal of crystal growth. 2013, Vol 363, pp 264-269, issn 0022-0248, 6 p.Article

Crystal growth and properties of the non-centrosymmetric superconductor, Ru7B3SINGH, R. P; PARZYK, N. A; LEES, M. R et al.Journal of crystal growth. 2014, Vol 395, pp 22-25, issn 0022-0248, 4 p.Article

Growth of eutectic ceramic structures by directional solidification methodsORERA, V. M; PENA, J. I; OLIETE, P. B et al.Journal of crystal growth. 2012, Vol 360, pp 99-104, issn 0022-0248, 6 p.Conference Paper

Simulation of microgravity floating-zone crystal-growth experiments in monoellipsoidal mirror furnacesRIVAS, Damian.Journal of crystal growth. 2004, Vol 262, Num 1-4, pp 48-58, issn 0022-0248, 11 p.Article

Experimental evidence that a high electric field acts as an efficient external parameter during crystalline growth of bulk oxideHICHER, P; HAUMONT, R; SAINT-MARTIN, R et al.Journal of crystal growth. 2015, Vol 409, pp 23-26, issn 0022-0248, 4 p.Article

Crystal growth of the non-centrosymmetric superconductor Nb0.18Re0.82SINGH, R. P; SMIDMAN, M; LEES, M. R et al.Journal of crystal growth. 2012, Vol 361, pp 129-131, issn 0022-0248, 3 p.Article

Crystal growth of rutile by tilting-mirror-type floating zone methodWATAUCHI, Satoshi; RAZZAQUE SARKER, Abdur; NAGAO, Masanori et al.Journal of crystal growth. 2012, Vol 360, pp 105-110, issn 0022-0248, 6 p.Conference Paper

Float-Zone silicon crystal growth at reduced RF frequenciesROST, H.-J; MENZEL, R; LUEDGE, A et al.Journal of crystal growth. 2012, Vol 360, pp 43-46, issn 0022-0248, 4 p.Conference Paper

Crystal growth of Tb0.9Dy0.1BaCo2O5+δ using travelling solvent floating zone methodSTINGACIU, M; POMJAKUSHINA, E; GRIMMER, H et al.Journal of crystal growth. 2008, Vol 310, Num 6, pp 1239-1244, issn 0022-0248, 6 p.Article

Numerical simulation of general flow features in a germanium floating zoneLIN, K; DOLD, P; BENZ, K. W et al.Computational materials science. 2007, Vol 39, Num 2, pp 424-429, issn 0927-0256, 6 p.Article

Crystal growth of Germanium-based oxide spinels by the Float Zone MethodHARA, Shigeo; YOSHIDA, Yoshiyuki; IKEDA, Shin-Ichi et al.Journal of crystal growth. 2005, Vol 283, Num 1-2, pp 185-192, issn 0022-0248, 8 p.Article

Crystal growth and optical properties of Ce:(La,Gd)2Ge2O7 grown by the floating zone methodKUROSAWA, Shunsuke; SHISHIDO, Toetsu; SUGAWARA, Takamasa et al.Journal of crystal growth. 2014, Vol 393, pp 142-144, issn 0022-0248, 3 p.Conference Paper

Large emission current density of LaxCe1―xB6 high quality single crystals grown by floating zone techniqueLI HONG BAO; TEGUS, O; JIU XING ZHANG et al.Journal of alloys and compounds. 2013, Vol 558, pp 39-43, issn 0925-8388, 5 p.Article

Floating zone growth and compositional inhomogeneity study of La0.75Y0.05Sr0.2MnO3 single crystalsSHULYATEV, D; KOZLOVSKAYA, N; PESTUN, A et al.Journal of crystal growth. 2009, Vol 311, Num 16, pp 4142-4145, issn 0022-0248, 4 p.Article

Floating-zone growth of CrB2 single crystalsOTANI, S; AIZAWA, T.Journal of alloys and compounds. 2008, Vol 454, Num 1-2, pp 147-149, issn 0925-8388, 3 p.Article

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