II Tip süperiletkenlerde manyetik kaldırma kuvveti için karşılaştırmalı inceleme
Meissner etkisi, 1933'te Meissner ve Ochsenfeld tarafından keşfedildiğinden beri sıfır direncin yanı sıra elbette bir süperiletkenin önemli bir özelliğidir. Deneylerle, bir süper iletken içindeki manyetik alanın daima sıfır olduğunu gösterdiler. Bu, süper iletkeni mükemmel diamanyetik bir malzeme olarak düşünebileceğimizi ima eder. YBa2Cu3O7, Bi2Sr2Ca2Cu3O10 ve HgBa2Ca2Cu3O8 gibi tip-II (Yüksek sıcaklık) süperiletkenleri teknolojik uygulamaları için oldukça caziptir. Önemli bir özellik levitation kuvveti ve MagLev uygulamasıdır. Nakliye ve diğer uygulamalarda MagLev sistemleri çok önemli hale gelmiştir. Bu uygulamalar, kriyojen transfer hattının enerji açısından verimli bir prototipinden uzay enerji depolama sistemlerine kadar değişmektedir. Bu çalışmada, BSCCO ve YBCO süperiletkenlerinin manyetik kaldırma kuvveti etkisini karşılaştırdık. Sonuçlar, BSCCO süper iletken ailesinin YBCO süper iletkenlerine kıyasla levitasyon kuvvetinde çok zayıf olduğunu gösterdi. YBCO ailesindeki süperiletkenlerin, akı sabitlemesi ve yüksek mıknatıslanma davranışı durumunda ortaya çıkan yüksek kritik akım yoğunluğuna sahip olduğu düşünülür.
A comparative study for magnetic levitation force in Type-II superconductors
Meissner Effect is, of course, an essential characteristic of a superconductor besides the zero resistivitysince the discovery by Meissner and Ochsenfeld in 1933. They showed by experiment that the magneticfield inside a superconductor is always zero. This implies that we can think of a superconductor as being aperfectly diamagnetic material. It is highly attractive for the technological applications of the type-II (Hightemperature) superconductors as YBa2Cu3O7, Bi2Sr2Ca2Cu3O10 and HgBa2Ca2Cu3O8. One importantproperty is the levitation force and its MagLev application. MagLev systems have become very importantin the transportation and other applications. These applications are ranging from in an energy efficientprototype of a cryogen transfer line to in space energy storage systems. In this study, we compared that theeffect of magnetic levitation force BSCCO and YBCO superconductors. The results were showed that theBSCCO superconductor’s family is very poor in case of the levitation force compared with the YBCOsuperconductors. It may be attributed that the YBCO family superconductors have the high critical currentdensity which occurs in the case of the flux pinning and the high magnetization behavior.
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