F. Lafont, R. Ribeiro-Palau, Z. Han, A. Cresti, A. Cummings, S. Roche, V. Bouchiat, S. Ducourtieux, F. Schopfer, W. Poirier
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Dissipative quantum Hall effect in polycrystalline CVD graphene
We report on a study of the quantum Hall effect in large area Hall bars made of polycrystalline graphene grown by chemical vapor deposition and then transferred on SiO2/Si substrate. The longitudinal conductivity σxx measured near Landau Level filling factors ±2, ±6 evidences a strong backscattering of carriers even at T=0.3 K and B=19 T. It results that the Hall resistance is not quantized at the metrological level. σxx increases (decreases) as a function of the temperature (magnetic induction) following unexpected power laws that are not compatible with usual backscattering mechanisms like variable range hopping or inter-Landau level activation. With the support of structural characterizations and numerical simulations, we discuss the role of line defects (wrinkles and grain boundaries) crossing the Hall bar which can short-circuit the counter-propagating edge states.
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