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Mesoscopic Fluctuations in High Magnetic-Fields - Change in Behavior Due to Boundary Diffusion
Brown, C V; Geim, A K; Foster, T J; Langerak, C J G M; Main, P C
Physical Review B. 1993;47(16):10935-10938.
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Abstract
We have studied universal conductance fluctuations in the magnetoresistance of n+-type GaAs submicrometer wires, which represent an orthodox mesoscopic system but also allow us to reach the high-magnetic-field regime, omega(c)tau > 1, where omega(c) is the cyclotron frequency and tau the electron scattering time. The Lee-Stone correlation field B(c) increases by more than an order of magnitude as the magnetic field increases from 0 to 18 T, but the amplitude of the fluctuations remains unchanged. This implies that the universal scaling of conductance fluctuations is not valid in high magnetic fields, in strong disagreement with theoretical predictions. We show that this behavior is not specific to the nonlocal geometry of measurements, where the breakdown has been reported earlier, but that it also occurs in the local magnetoresistance and rectification fluctuations. The violation of universal scaling is attributed to the appearance of a second phase-breaking length, in the regime omega(c)tau > 1, due to extended electron diffusion near the sample boundaries.
Keyword(s)
conductance fluctuations; extrinsic conductivity; heterostructures; magnetoresistance; quantum transport; regimes; wires
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- Related website <Go to ISI>://A1993LA29800111
- La298 Times Cited:23 Cited References Count:25