镍基铋化物GdONiBi和空穴掺杂的Gd_(0.9)Sr_(0.1)ONiBi的超导电性(英文)

Superconductivity in nickel-based bismuthide GdONiBi and holedoped Gd_(0.9)Sr_(0.1)ONiBi

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摘要制备了镍基化合物GdONiBi,并且得到其超导转变温度为4.5K.通过用Sr元素部分的替代Gd元素向该物质中引入空穴,得到了一种新的超导体Gd0.9Ni0.1其转变温度为4.7K.两种镍基化合物超导体正常金属态的电阻率均显示出金属行为.通过对其磁电阻效应的研究发现其磁电阻效应显示出与铁基超导体不同的行为,表明两者之间的超导机制可能存在差异. The nickel-based compound GdONiBi was successfully synthesized with superconducting transition temperature about 4.5 K. By partially substituting the element Gd with Sr to introduce holes into the material,a new superconductor Gd0.9Sr0.1ONiBi was obtained with critical temperature about 4.7 K. The normal state resistivity in nickel-based samples shows a metallic behavior. The magnetoresistance measurements show a different behavior compared to those in iron-based compounds which may indicate that the mechan...

作者葛军饴秦晓玲曹世勋袁淑娟张金仓

机构地区上海大学物理系南京大学固体微结构实验室

出处《山东大学学报（工学版）》 CAS 北大核心 2009年第1期106-109,共4页 Journal of Shandong University（Engineering Science）

基金 supported by the National Natural Science Foundation of China (Grant Nos .10674092,10504019,10774097) the Science and Technology Innovation Fund of the Shanghai Education Committee (No.09ZZ95) the Science & Technology Committee of Shanghai Mu-nicipality (No.08dj1400202)

关键词镍基铋化物空穴掺杂磁电阻多带效应 nickel-based bismuthide hole doped magnetoresistance multiband effect

分类号 O611.3 [理学—无机化学]

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镍基铋化物GdONiBi和空穴掺杂的Gd_(0.9)Sr_(0.1)ONiBi的超导电性(英文)

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