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|Title:||ANOMALOUS VISCOSITY OF VORTEX HALL STATES IN GRAPHENE|
Mensah, Samuel Y.
Seini, Ibrahim Y.
Abukari, Sulemana S.
Quantum Hall Fluid
Fractional Quantum Hall Effect
Hall Expansion Coefficient
|Publisher:||Scienticfic Reseach Publishing|
|Series/Report no.:||Vol. 3;Isssue 12|
|Abstract:||We study temperature effect on anomalous viscosity of Graphene Hall fluid within quantum many-vortex hydrodynamics. The commonly observed filling fraction, ν in the range 0 <ν < 2 is considered. An expression for anomalous viscosity dependent on a geometric parameter-Hall expansion coefficient is obtained at finite temperatures. It arises from strained induced pseudomagnetic field in addition to an anomalous term in vortex velocity, which is responsible for renormalization of vortex-vortex interactions. We observed that both terms greatly modify the anomalous viscosity as well as an enhancement of weakly observed v fractions. Finite values of the expansion coefficient produce constant and infinite viscosities at varying temperatures. The infinities are identified as energy gaps and suggest temperatures at which new stable quantum hall filling fractions could be seen. This phenomenon is used to estimate energy gaps of already measured fractional Quantum Hall States in Graphene.|
|Appears in Collections:||Faculty of Mathematical Sciences|
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