La_(1-x)Zn_xMnO_3和La_(2/3)Sr_((1-x)/3)Zn_(x/3)MnO_3的磁电输运特性  

Magnetotransport Properties of La_(1-x)Zn_xMnO_3 and La_(2/3)Sr_((1-x)/3)Zn_(x/3)MnO_3 Compounds

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作  者:周正有[1] 罗广圣[1] 雷宇[1] 辛勇[1] 

机构地区:[1]南昌大学材料科学与工程学院,江西南昌330031

出  处:《南昌大学学报(工科版)》2008年第2期146-149,158,共5页Journal of Nanchang University(Engineering & Technology)

摘  要:用固相反应方法制备La1-xZnxMnO3和La2/3Sr(1-x)/3Znx/3MnO3化合物。La1-xZnxMnO3在不同掺杂浓度x的研究表明:Zn2+在一定浓度范围内掺杂,具有钙钛矿结构,但掺杂浓度在50%-70%时有ZnO衍射峰,其电阻率在100 K以上随温度而下降,当掺杂浓度为x=0.3时电阻率最低。当Zn2+和Sr2+共掺而保持La3+浓度不变,即载流子浓度不变,维持Mn3+/Mn4+=2:1,随Zn2+掺杂浓度增大,铁磁-顺磁转变温度降低,磁阻效应增大。低场磁阻效应与Zn2+掺杂浓度无关,而与温度有关;高场磁阻效应随掺杂浓度增大而增大。The La1-xZnxMnO3 and La2/3 Sr(l-x)/3 Znx/3 MnO3 compounds were prepared by conventional solidstate reaction method. The study on La1-xZnxMnO3 compound shows that there exists perovskite structure in all doping contents while the diffraction peaks of ZnO appears when the doping content of Zn^2+ is in the range of 50% -70%. The resistivity of these compounds decreases with increase of temperature. The resistivity of the compound with x =0.3 is lowest and the magnetic field have an obvious effect on the resistivity. However, the results of Zn^2+ and Sr^2+ codoping with the fixed Mn^/Mn^4+ = 2 : 1 ratio show that the peak resistivity and curie tra+nsition temperature decrease while the magnetoresistance (MR) increases by increasing Zn^2+ doping content. The low -field magnetoresistance(LFMR) remains unchanged while the high-field magnetoresistance increases by increasing Zn^2+ doping content.

关 键 词:钙钛矿结构 磁电阻 Zn2+掺杂 低场磁阻效应 

分 类 号:O441.2[理学—电磁学] TQ137.1[理学—物理]

 

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