Publications Details

Magnetoresistance of one-dimensional subbands in tunnel-coupled double quantum wires

Moon, J.S.

We study the low-temperature in-plane magnetoresistance of tunnel-coupled quasi-one-dimensional quantum wires. The wires are defined by two pairs of mutually aligned split gates on opposite sides of a ⩽1-μm-thick (Formula presented) double-quantum-well heterostructure, allowing independent control of the width of each quantum well. In the ballistic regime, when both wires are defined and the field is perpendicular to the current, a large resistance peak at ∼6 T is observed with a strong gate voltage dependence. The data are consistent with a counting model whereby the number of subbands crossing the Fermi level changes with field due to the formation of an anticrossing in each pair of one-dimensional subbands. © 1999 The American Physical Society.