TY - JOUR
AU - K Ghosh
AU - S.B Ogale
AU - Ramamoorthy Ramesh
AU - R.L Greene
AU - T Venkatesan
AU - K.M Gapchup
AU - R Bathe
AU - S.I Patil
AB - The influence of transition element (TE) doping on the magnetotransport properties of (Formula presented) is studied for the entire transition element series ((Formula presented) Fe, Co, Ni, Cu, Zn) for a fixed (5% at Mn sites) dopant concentration. The systematics of different properties such as the metal-insulator transition temperature (Formula presented) the Curie temperature (Formula presented) (Formula presented) and the maximum value of magnetoresistance (MR), with respect to lattice parameter and the ionic radii of dopants, are examined. The important findings include an interesting correlation between the maximum MR, the lattice parameter, and the ionic radii, and some distinct features exhibited by Fe, Cu, and Zn dopants. © 1999 The American Physical Society.
BT - Physical Review B - Condensed Matter and Materials Physics
DO - 10.1103/PhysRevB.59.533
LA - eng
M1 - 1
N1 - cited By 270
N2 - The influence of transition element (TE) doping on the magnetotransport properties of (Formula presented) is studied for the entire transition element series ((Formula presented) Fe, Co, Ni, Cu, Zn) for a fixed (5% at Mn sites) dopant concentration. The systematics of different properties such as the metal-insulator transition temperature (Formula presented) the Curie temperature (Formula presented) (Formula presented) and the maximum value of magnetoresistance (MR), with respect to lattice parameter and the ionic radii of dopants, are examined. The important findings include an interesting correlation between the maximum MR, the lattice parameter, and the ionic radii, and some distinct features exhibited by Fe, Cu, and Zn dopants. © 1999 The American Physical Society.
PY - 1999
SP - 533
EP - 537
T2 - Physical Review B - Condensed Matter and Materials Physics
TI - Transition-element doping effects in (formula presented)
VL - 59
SN - 10980121
ER -