Title :
Magnetoresistance in LaFe11.2Co0.7Si1.1 compound
Author :
Hu, F.X. ; Gao, J. ; Qian, X.L. ; Li, Y.X. ; Du, J. ; Sun, J.R. ; Shen, B.G.
Author_Institution :
Dept. of Phys., Capital Normal Univ., Hong Kong, China
fDate :
7/1/2004 12:00:00 AM
Abstract :
Magnetoresistance has been studied in LaFe11.2Co0.7Si1.1 compound. The ferromagnetic ordering at Curie temperature TC of 274 K was found being accompanied by a drastic negative lattice expansion due to the strong structural and magnetic interplay. Such a simultaneous magnetic and lattice change would cause changes in transport properties. The measured transport properties indicate that the transition can be induced by temperature or applied magnetic field. The sample shows a metallic character below TC, whereas the electrical resistance decreases dramatically and then recovers the metal-like behavior above TC. Application of a magnetic field retains the transitions via increasing the ferromagnetic ordering temperature. An isothermal increase of field leads to an increase of resistance at temperatures near but above TC, which is a result of the field-induced metamagnetic transition from paramagnetic to ferromagnetic state.
Keywords :
X-ray diffraction; cobalt alloys; ferromagnetic materials; iron alloys; lanthanum alloys; magnetocaloric effects; magnetoresistance; silicon alloys; 274 K; Curie temperature; LaFeCoSi; electrical resistance; ferromagnetic ordering temperature; ferromagnetic state; magnetic field; magnetic interplay; magnetocaloric effect; magnetoresistance; metamagnetic transition; negative lattice expansion; paramagnetic state; transport properties; Electric resistance; Electrical resistance measurement; Isothermal processes; Lattices; Magnetic field measurement; Magnetic fields; Magnetic properties; Magnetoresistance; Paramagnetic materials; Temperature; $-type compounds; Magnetocaloric effect; NaZn$_1; magnetoresistance;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2004.832500
