Publicación: Effect of physical and chemical pressure on the superconductivity of high-temperature oxide superconductors
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Fil.: Guimpel, J. Comisión Nacional de Energía Atómica. Instituto Balseiro; Argentina; Universidad Nacional de Cuyo; Argentina; University of California-San Diego. Department of Physics; Estados Unidos
Fil.: Fernandes, A.A.R. University of California-San Diego. Department of Physics; Estados Unidos
Fil.: Santamaria, J. University of California-San Diego. Department of Physics; Estados Unidos
Fil.: Bud’ko, S.L. University of California-San Diego. Department of Physics; Estados Unidos
Fil.: Nakamura, O. University of California-San Diego. Department of Physics; Estados Unidos
Fil.: Schuller, I.K. University of California-San Diego. Department of Physics; Estados Unidos
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Centro Atómico Bariloche
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eng
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We have compared the changes in the structure and superconductivity of the Gd1−xYxBa2Cu3O7−δ system produced by rare-earth-ion substitution (chemical pressure) and by hydrostatic pressure. Although the application of both chemical and physical pressure result in an overall compression of the unit cell, the effect on Tc is of opposite sign. A detailed comparison of the evolution of the structure under both kinds of pressure shows that the origin of this qualitatively different behavior in Tc is correlated with the apical oxygen to CuO2-plane distance which also presents opposite trends. The origin of this difference is found in the extremely inhomogeneous character of the chemical pressure which, in spite of inducing an overall compression of the structure, produces an expansion of certain regions of the unit cell.
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Physical Review B. Vol. 44, no. 14 (1991), p. 7601