Quantum-Hall activation gaps in graphene
Abstract
We have measured the quantum-Hall activation gaps in graphene at filling factors =2 and =6 for magnetic fields up to 32 T and temperatures from 4 K to 300 K. The =6 gap can be described by thermal excitation to broadened Landau levels with a width of 400 K. In contrast, the gap measured at =2 is strongly temperature and field dependent and approaches the expected value for sharp Landau levels for fields B > 20 T and temperatures T > 100 K. We explain this surprising behavior by a narrowing of the lowest Landau level.
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