Study Of Superconductivity
Keywords:
Superconductivity, technological, discovered, Heike KammerlinghAbstract
Superconductivity was discovered in 1911 by Dutch physicist Heike Kammerlingh Onnes by studying the resistivity of solid mercury at cryogenic temperatures using the recently discovered liquid helium as a refrigerant. After this discovery of superconductivity many metals and alloys had shown superconductivity when these specimen are cooled to sufficiently low temperature. Superconducting materials are very important in scientific and technological prospective.
References
Campbell, A.M. and Cardwell, D.A. and Ashworth, S.P. and Coombs, T.A. (1994),” Power engineering applications of high temperature superconductors,” IRC in Superconductivity Research Review 1994. pp. 174-181.
T A Coombs, A M Campbell, D A Cardwell, “Development of an Active Superconducting Bearing”, IEEE Transactions on Applied Superconductivity (1995) 5 2 630-633.
T A Coombs, A M Campbell, “An Active Superconducting Magnetic Bearing”, Inst. Phys. Conf. Ser. 148 (1995) 671-674.
XH Jiang, D M Astill, W Lo, D A Cardwell, T A Coombs, A M Campbell, J G Larsen , “Experimental Analysis of the Magnetic field shielding and trapping properties of bulk melt processed YBa2Cu3O7-”, Physica C 249 (1995) 171-180.
T.A.Coombs, “Bearings and energy storage”, IEE Colloquium on High Tc Superconducting Materials as Magnets, Page(s):8/1 - 8/3 7 Dec 1995.
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