Electrical, Magnetic and Superconducting Properties of the Quenched Bi2Sr2Ca1-xNdxCu2O8+δ System

Kuniyuki Koyama; Satoshi Kanno; Seiichiro Noguchi

doi:10.1143/JJAP.29.L53

Japanese Journal of Applied Physics

Electrical, Magnetic and Superconducting Properties of the Quenched Bi₂Sr₂Ca_1-xNd_xCu₂O_8+δ System

Kuniyuki Koyama¹, Satoshi Kanno² and Seiichiro Noguchi²

Copyright (c) 1990 The Japan Society of Applied Physics
Japanese Journal of Applied Physics, Volume 29, Number 1A Citation Kuniyuki Koyama et al 1990 Jpn. J. Appl. Phys. 29 L53 DOI 10.1143/JJAP.29.L53

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¹ Technology Development Center, Toyohashi University of Technology

² Department of Electrical and Electronic Engineering, Toyohashi University of Technology

Dates

Received 18 October 1989
Accepted 6 December 1989

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Abstract

Structure, resistivity and susceptibility are studied in the quenched Bi₂Sr₂Ca_1-xNd_xCu₂O_8+δ system. The quenched samples with 0≦x≦1 have a single phase of the Bi₂Sr₂CaCu₂O_8+δ structure, as do the furnace-cooled samples. The oxygen concentration decreases slightly by about 0.05 upon quenching from 800°C to liquid nitrogen temperature. The T_c remains a constant (∼90 K) for x≦0.15, and decreases linearly with x for 0.15≦x≦0.45, and superconductivity disappears in the samples with x≧0.45. Referring to the previous results for the furnace-cooled Bi₂Sr₂Ca_1-xNd_xCu₂O_8+δ system, the relationship between the T_c and the hole concentration in [Cu-O] is confirmed to be universal in both the quenched and the furnace-cooled Bi₂Sr₂Ca_1-xNd_xCu₂O_8+δ systems.

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