A. Gupta, T.R. McGuire, et al.
Applied Physics Letters
We have explored the colossal magnetoresistance (CMR) effect in the antiferromagnetic La0.5Ca0.5MnO3 compound. In the absence of a magnetic field (H), the solid is a canted antiferromagnetic (AFM) insulator. An applied H in the Tesla scale induces a first order AFM to FM phase transition, and correspondingly, an insulator to metal transition. The observed CMR is attributed to the H-induced charge localization-delocalization behavior associated with the AFM-FM transition. At low temperatures (7<100 K), the solid remains in the AFM phase, where we have observed a phenomenal one millionfold change in resistivity between 0 and 8 Tesla. The origin of CMR in low T-region is a thermal activation energy gap which is strongly dependent on H. © 1996 American Institute of Physics.
A. Gupta, T.R. McGuire, et al.
Applied Physics Letters
P. Lecoeur, A. Gupta, et al.
Journal of Applied Physics
S. Ingvarsson, L. Ritchie, et al.
Physical Review B - CMMP
A. Gupta, G.Q. Gong
Physical Review B - CMMP