Electrical and structural properties of MgB2 films prepared by sequential deposition of B and Mg on the NbN buffered Si(100) substrate

C.J. van der Beek; I. Vavra; L. Satrapinsky; M. Spankova; P. Gierlowski; S.Benacka; S. Chromik; S.Gazi; V. Strbik

arxiv: cond-mat/0401569 · v1 · submitted 2004-01-28 · ❄️ cond-mat.supr-con · cond-mat.mtrl-sci

Electrical and structural properties of MgB2 films prepared by sequential deposition of B and Mg on the NbN buffered Si(100) substrate

S. Chromik , S.Gazi , V. Strbik , M. Spankova , I. Vavra , L. Satrapinsky , S.Benacka , C.J. van der Beek

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P. Gierlowski

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classification ❄️ cond-mat.supr-con cond-mat.mtrl-sci

keywords mgb2filmsbufferedcriticalpresencesequentialsubstratetemperature

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We introduce a simple method of an MgB2 film preparation using sequential electron-beam evaporation of B-Mg two-layer (followed by in-situ annealing) on the NbN buffered Si(100) substrate. The Transmission Electron Microscopy analyses confirm a growth of homogeneous nanogranular MgB2 films without the presence of crystalline MgO. A sensitive measurement of temperature dependence of microwave losses shows a presence of intergranular weak links close the superconducting transition only. The MgB2 films obtained, about 200 nm thick, exhibit a maximum zero resistance critical temperature of 36 K and critical current density of 3x10^7 A/cm^2 at 13.2 K

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Electrical and structural properties of MgB2 films prepared by sequential deposition of B and Mg on the NbN buffered Si(100) substrate

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