Density-dependent spin polarization in ultra-low-disorder quantum wires

Density-dependent spin polarization in ultra-low-disorder quantum wires

There is controversy as to whether a one-dimensional (1D) electron gas can spin polarize in the absence of a magnetic field. Together with a simple model, we present conductance measurements on ultra-low-disorder quantum wires supportive of a spin polarization at B=0. A spin energy gap is indicated...

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Veröffentlicht in:Physical review letters 2002-12, Vol.89 (24), p.246801-246801, Article 246801
Hauptverfasser: Reilly, D J, Buehler, T M, O'Brien, J L, Hamilton, A R, Dzurak, A S, Clark, R G, Kane, B E, Pfeiffer, L N, West, K W
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Sprache:eng
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Zusammenfassung:There is controversy as to whether a one-dimensional (1D) electron gas can spin polarize in the absence of a magnetic field. Together with a simple model, we present conductance measurements on ultra-low-disorder quantum wires supportive of a spin polarization at B=0. A spin energy gap is indicated by the presence of a feature in the range (0.5-0.7)x2e(2)/h in conductance data. Importantly, it appears that the spin gap is not constant but a function of the electron density. Data obtained using a bias spectroscopy technique are consistent with the spin gap widening further as the Fermi level is increased.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.89.246801