Magnetic and transport properties of Dy substituted layered perovskite La1.3Sr1.7Mn2O7

doi:10.1088/1674-1056/19/12/127501

Abstract The effect of Dy substitution for La site in layered manganese oxides La_1.3-xDy_xSr_1.7Mn₂O₇ on the magnetic and electrical properties has been investigated. With the La³⁺ substituting by Dy³⁺, the long range three-dimensional ferromagnetism transition and the insulator–metal transition disappear. These effects are attributed to the lattice distortion due to the substitution of the smaller Dy³⁺. Addtionally, the small Dy³⁺ is inclined to occupy the R site which is in the rock-salt layer, then the distribution of La, Sr, Dy ions in Dy-doped sample should be more orderly than that in La_1.3Sr_1.7Mn₂O₇, so there is only one insulator–metal transition in the $\rho$–T curve of the sample with x=0.05 and x=0.1.

Keywords: magnetic property electrical property magnetoresistance metal–insulator transition

Received: 02 July 2010
Revised: 16 September 2010
Accepted manuscript online:

PACS:	61.72.S-	(Impurities in crystals)
	72.80.Sk	(Insulators)
	75.30.Kz	(Magnetic phase boundaries (including classical and quantum magnetic transitions, metamagnetism, etc.))
	75.60.Ej	(Magnetization curves, hysteresis, Barkhausen and related effects)

Fund: Project supported by the National Natural Science Foundation of China (Grant No. 50862007) and the Inner Mongolia Natural Science Foundation of China (Grant No. 2009MS0101).

Cite this article:

Zheng Lin(郑琳), Lu Yi(鲁毅), Zhao Jian-Jun(赵建军), Zhang Xiang-Qun(张向群), Xing Ru(邢茹), and Wu Hong-Ye(吴鸿业), Jin Xiang(金香), Zhou Min(周敏), and Cheng Zhao-Hua(成昭华) Magnetic and transport properties of Dy substituted layered perovskite La_1.3Sr_1.7Mn₂O₇ 2010 Chin. Phys. B 19 127501

[1]	Moritomo Y, Asamitsu A, Kuwahara H and Tokura Y 1996 Nature 380 141
[2]	Kimura T, Tomioka Y, Kuwahara H, Asamitsu A, Tamura M and Tokura Y 1996 Science 274 1698
[3]	Argyriou D N, Mitchell J F, Radaelli P G, Bordallo H N, Cox D E, Medarde M and Jorgensen J D 1999 Phys. Rev. B 59 8695
[4]	Kubota M, Fujioka H, Ohoyama K, Hirota K, Moritomo Y, Yoshizawaand H and Endoh Y 1999 J. Phys. Chem. Solids 60 1161
[5]	Battle P D, Green M A, Laskey N S, Kasmir N, Millburn J E, Spring L E, Sullivan S P, Rosseinsky M J and Vente J F 1997 J. Mater. Chem. 7 977
[6]	Joonghoe Dho, Kim W S and Hur N H 2001 Phys. Rev. B 65 024404
[7]	Zhang J, Wang F W, Zhang P L and Yan Q W 2000 Mater. Sci. Eng. B 76 6
[8]	Wang A H, Liu Y, Zhang Z Y, Long Y and Cao G H 2004 Solid State Commun. 130 293
[9]	Asano H, Hayakawa J and Matsui M 1997 Phys. Rev. B 56 5395
[10]	Liu L, Xia Z C and Yuan S L 2006 Mater. Sci. Eng. B 127 55

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Magnetic and transport properties of Dy substituted layered perovskite La1.3Sr1.7Mn2O7

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Magnetic and transport properties of Dy substituted layered perovskite La_1.3Sr_1.7Mn₂O₇