1208.0241 (B. D'Anjou et al.)

Anomalous magnetotransport through reflection-symmetric artificial
molecules    [PDF]

B. D'Anjou, W. A. Coish

We calculate magnetotransport oscillations in current through a triple-quantum-dot molecule, accounting for higher harmonics (having flux period h/ne, with n an integer). For a reflection-symmetric triple quantum dot, we find that harmonics with n odd can dominate over those with n even. This is opposite to the behavior theoretically predicted due to `dark-state' localization, but consistent with recent experiments [L. Gaudreau et al., Phys. Rev. B, 80, 075415 (2009)]. This feature arises from a more general result: In the weak-coupling limit, we find that the current is flux-independent for an arbitrary reflection-symmetric Aharonov-Bohm network. We further show that these effects are observable in nanoscale systems even in the presence of typical dephasing sources.

View original: http://arxiv.org/abs/1208.0241