Superconductivity in rapidly quenched metallic systems with nanoscale structure


Autoria(s): Goswami, R; Banerjee, S; Chattopadhyay, K; Raychaudhuri, AK
Data(s)

15/03/1993

Resumo

Nanocomposites of Al?In, Al?Pb, and Zn?Pb have been prepared and characterized using rapid quenching techniques and the nature of superconducting transitions in them has been studied by resistivity measurements. The precipitated second phases (In and Pb) have particle sizes (d) of a few tens of nanometers such that ?0?d?dmin, where ?0 is the superconducting zero temperature coherence length and dmin is the minimum particle size that supports superconductivity. The onset of superconductivity generally starts in samples with d??0 and progressively other grains with d??0 become superconducting. We suggest that the proximity effect of the matrix plays a significant role. In an Al?In system, even with 40?wt.% In, the zero resistivity state is obtained at T?1.33 times the Tc of Al. But in Al?Pb and Zn?Pb, the zero resistivity state is obtained at T?4 and 5 times the Tc of Al and Zn with only 10�15 wt?% Pb, respectively.

Formato

application/pdf

Identificador

http://eprints.iisc.ernet.in/35846/1/Super.pdf

Goswami, R and Banerjee, S and Chattopadhyay, K and Raychaudhuri, AK (1993) Superconductivity in rapidly quenched metallic systems with nanoscale structure. In: Journal of Applied Physics, 73 (6). pp. 2934-2940.

Publicador

American Institute of Physics

Relação

http://jap.aip.org/resource/1/japiau/v73/i6/p2934_s1

http://eprints.iisc.ernet.in/35846/

Palavras-Chave #Materials Engineering (formerly Metallurgy) #Physics
Tipo

Journal Article

PeerReviewed