Wednesday, March 27, 2013

1303.6443 (Amit K. Das et al.)

Quantum corrections to conductivity in Si doped ZnO thin films    [PDF]

Amit K. Das, R. S. Ajimsha
Si doped ZnO thin films with Si concentrations ranging from 0.4 to 10 % have been grown by sequential pulsed laser deposition on sapphire substrates. The resistivity of the films first decreased from ~ 6.6x10-3 to 4.7x10-4 ohm-cm as the Si concentration was increased from ~ 0.4 to 2% and then it increased with further increase in Si concentration. The electron concentrations in the films were in the range from 3x1019 to 4x1020 cm-3 showing their degenerate nature. However, temperature dependent resistivity measurements in the range from 300 to 4.2 K revealed negative temperature coefficient of resistivity (TCR) for the 0.4, 6 and 10% Si doped ZnO films in the entire measurement temperature range. The 0.6, 0.9 and 2% Si doped films showed a transition from negative to positive TCR with increasing temperature. The negative magnetoresistance found in the films at low temperatures and 0.5 T magnetic field pointed to weak localization as the dominant contributor towards negative TCR. A quantitative fit of the temperature dependent resistivity data for all the films could be obtained by considering the quantum correction to conductivity arising due to disorder induced weak localization effect.
View original: http://arxiv.org/abs/1303.6443

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