L. DiCarlo, Yiming Zhang, D. T. McClure, D. J. Reilly, C. M. Marcus, L. N. Pfeiffer, K. W. West, M. P. Hanson, A. C. Gossard
Published 2007-04-30Version 1
We present measurements of current noise in quantum point contacts as a function of source-drain bias, gate voltage, and in-plane magnetic field. At zero bias, Johnson noise provides a measure of the electron temperature. At finite bias, shot noise at zero field exhibits an asymmetry related to the 0.7 structure in conductance. The asymmetry in noise evolves smoothly into the symmetric signature of spin-resolved electron transmission at high field. Comparison to a phenomenological model with density-dependent level splitting yields quantitative agreement. Additionally, a device-specific contribution to the finite-bias noise, particularly visible on conductance plateaus (where shot noise vanishes), agrees quantitatively with a model of bias-dependent electron heating.
Comments: Proceedings of the 6th Rencontres du Vietnam, Hanoi (2006)
Quantum Point Contacts
Electron-electron interaction effects in quantum point contacts
Spin fluctuations in the 0.7-anomaly in quantum point contacts
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