期刊
RSC ADVANCES
卷 8, 期 8, 页码 4417-4425出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/c7ra12878a
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资金
- National Natural Science Foundation of China [NSF-11174069]
- Natural Science Foundation of Hebei Province [A2015205111]
- Key item Science Foundation of Hebei Province [16961106D]
- Young scholar Science Foundation of the Education Department of Hebei Province [QN2016015]
Amodelwith two channels of electrical transport (TCET) for perovskite manganites is proposed, and it is described by an equivalent device with two current-carrier channels. In one channel, there is a spin-independent resistor (R-3) with an equivalent resistivity of rho(3). In the other channel, there are two spin-dependent resistors in series (R-1 and R-2) with an equivalent resistivity of rho(1) + rho(2). The component rho(1) includes residual resistivity and the resistivity contributed by crystal-lattice scattering. The other component of the equivalent resistivity, rho(2), originates from the spin orientations of the itinerant electrons and the local electrons of the outer O 2p and Mn 3d orbits that deviate from the orientation of their ground states when the test temperature is close to the Curie temperature. Using this model, we fitted the experimental curves of the resistivity versus test temperature for single-crystalline La1-xSrxMnO3 (0.00 <= x <= 0.40) and polycrystalline La0.6Sr0.4Mn1-xFexO3 (0.00 <= x <= 0.30). In addition, we investigated the effects of the fraction of the antiferromagnetic phase, scattering at the crystallite interfaces, and the crystal-cell constants on the samples' resistivity. The physical mechanism of the TCET model was explained using an O 2p itinerant-electron model, which has been used in other studies to explain the magnetic ordering of several series of spinel ferrites and perovskite manganites.
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