Electron and hole
Bloch states in bilayer graphene exhibit topological
orbital magnetic moments with opposite signs, which allows for tunable
valley-polarization in an out-of-plane magnetic field. This property
makes electron and hole quantum dots (QDs) in bilayer graphene interesting
for valley and spin-valley qubits. Here, we show measurements of the
electron–hole crossover in a bilayer graphene QD, demonstrating
opposite signs of the magnetic moments associated with the Berry curvature.
Using three layers of top gates, we independently control the tunneling
barriers while tuning the occupation from the few-hole regime to the
few-electron regime, crossing the displacement-field-controlled band
gap. The band gap is around 25 meV, while the charging energies of
the electron and hole dots are between 3 and 5 meV. The extracted
valley
g
-factor is around 17 and leads to opposite
valley polarization for electrons and holes at moderate
B
-fields. Our measurements agree well with tight-binding calculations
for our device.
We present measurements of quantized conductance in electrostatically induced quantum point contacts in bilayer graphene. The application of a perpendicular magnetic field leads to an intricate pattern of lifted and restored degeneracies with increasing field: at zero magnetic field the degeneracy of quantized one-dimensional subbands is four, because of a twofold spin and a twofold valley degeneracy. By switching on the magnetic field, the valley degeneracy is lifted. Due to the Berry curvature states from different valleys split linearly in magnetic field. In the quantum Hall regime fourfold degenerate conductance plateaus reemerge. During the adiabatic transition to the quantum Hall regime, levels from one valley shift by two in quantum number with respect to the other valley, forming an interweaving pattern that can be reproduced by numerical calculations. arXiv:1809.01920v1 [cond-mat.mes-hall]
Exposure to ultrafine particles during fire suppression should be considered a potential contributing factor for CHD in firefighters. Of major significance is their predominance during overhaul, where firefighters frequently remove respiratory protection.
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