J
J. C. Scott
Researcher at IBM
Publications - 9
Citations - 1382
J. C. Scott is an academic researcher from IBM. The author has contributed to research in topics: Antiferromagnetism & Transition temperature. The author has an hindex of 7, co-authored 9 publications receiving 1339 citations.
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Polarons and bipolarons in polypyrrole: Evolution of the band structure and optical spectrum upon doing
TL;DR: This article presented des resultats de calculs de structure de bandes en liaison forte pour une chaine polypyrrole deformable, en fonction du dopage.
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Enhanced magneto-optical Kerr effect in spontaneously ordered FePt alloys: Quantitative agreement between theory and experiment.
Alfonso Cebollada,Dieter Weller,J. Sticht,G. R. Harp,R. F. C. Farrow,Ronald Franklin Marks,R. Savoy,J. C. Scott +7 more
TL;DR: In this paper, a chemical-ordering-induced peak in the polar magneto-optical Kerr effect spectra of FePt compounds is found to be in quantitative agreement with predictions based on ab initio magnetooptical calculations.
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Superconductivity in a new family of organic conductors
Stuart S. P. Parkin,Edward M. Engler,R. R. Schumaker,R. Lagier,Victor Y. Lee,J. C. Scott,Richard L. Greene +6 more
TL;DR: In this article, the first unambiguous observation of superconductivity in a sulphur-donor organic system was made, where BEDT-TTF exhibits a first-order metal-insulator transition, postulated to result from a change in the arrangement of the anions which are ordered at room temperature.
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Ferromagnetic resonance studies of exchange-biased Permalloy thin films.
TL;DR: Afin de faire une exploration complementaire de la phenomenologie de l'anisotropie d'echange, et dans le but d'obtenir des observations experimentales additionnelles qui pourraient aider a elucider la nature microscopique of l'interaction d'interface, on realise une etude de R.M.F.
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Magnetic disorder in the exchange bias bilayered FeNi-FeMn system
TL;DR: In this paper, the authors studied the loop shift and contraction properties of ferromagnetic FeNi-antiferromagnetic (FeMn) bilayers and showed that the loop shifts are related to the properties of a disordered interface layer, similar to a spin glass.