0.7 Structure and Zero Bias Anomaly in Ballistic Hole Quantum Wires

Physics – Condensed Matter – Mesoscale and Nanoscale Physics

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Phys. Rev. Lett. 100, 016403 (2008)

Scientific paper

10.1103/PhysRevLett.100.016403

We study the anomalous conductance plateau around $G = 0.7(2e^{2}/h)$ and the zero-bias anomaly in ballistic hole quantum wires with respect to in-plane magnetic fields applied parallel $B_{\parallel}$ and perpendicular $B_{\perp}$ to the quantum wire. As seen in electron quantum wires, the magnetic fields shift the 0.7 structure down to $G = 0.5(2e^{2}/h)$ and simultaneously quench the zero bias anomaly. However, these effects are strongly dependent on the orientation of the magnetic field, owing to the highly anisotropic effective Land\'{e} \emph{g}-factor $g^{*}$ in hole quantum wires. Our results highlight the fundamental role that spin plays in both the 0.7 structure and zero bias anomaly.

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