Temperature Dependence of the Lower Critical Field of UPt sub 3 Doped With Boron

Doping of a small amount of boron in UPt sub 3 produces samples possessing somewhat higher superconducting transition temperatures and lower residual resistivities ( rho sub 0 ). Performed were dc-magnetization measurements and determined was the lower critical field (H sub c1 ) of a B-doped, single...

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Veröffentlicht in:	Journal of magnetism and magnetic materials 1991-09, Vol.108 (1-3-III), p.75-76
Hauptverfasser:	Knetsch, E A, Mydosh, J A, Vorenkamp, T, Menovsky, A A
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container_end_page	76
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container_title	Journal of magnetism and magnetic materials
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creator	Knetsch, E A Mydosh, J A Vorenkamp, T Menovsky, A A
description	Doping of a small amount of boron in UPt sub 3 produces samples possessing somewhat higher superconducting transition temperatures and lower residual resistivities ( rho sub 0 ). Performed were dc-magnetization measurements and determined was the lower critical field (H sub c1 ) of a B-doped, single-crystal of UPt sub 3 , along the b and c axes. A kink was observed in the temperature dependence of H sub c1 for both b and c directions. Also observed was a double transition in ZFC dc-magnetization experiments for the external field parallel to the b axis. This step in the shielding curve coincides with the kink in H sub c1 and the second peak in the specific heat measurements on the same sample. No such feature is observed with the field along the c axis. As an upward kink in H sub c1 cannot be due to different metallurgical phases in the sample, it might be interpreted as a manifestation of the anisotropic superconductivity in this material.
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title	Temperature Dependence of the Lower Critical Field of UPt sub 3 Doped With Boron
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