Open AccessVector-mean-field theory of the fractional quantum Hall effect
Author(s) -
B. Rejaei,
C. W. J. Beenakker
Publication year - 1992
Publication title -
physical review. b, condensed matter
Language(s) - English
Resource type - Journals
eISSN - 1095-3795
pISSN - 0163-1829
DOI - 10.1103/physrevb.46.15566
Subject(s) - physics , fractional quantum hall effect , quantum tunnelling , quantum hall effect , quantum mechanics , adiabatic process , electron , mean field theory , quantum spin hall effect , azimuthal quantum number , ground state , excitation , quantum dot , composite fermion , quantum electrodynamics , condensed matter physics , exponent , charge (physics) , angular momentum , total angular momentum quantum number , angular momentum coupling , linguistics , philosophy
A mean-field theory of the fractional quantum Hall effect is formulated basedon the adiabatic principle of Greiter and Wilczek. The theory is tested on known bulk properties (excitation gap, fractional charge, and statistics), and then applied to a confined region in a two-dimensional electron gas (quantum dot). For a small number N of electrons in the dot, the exact ground-state energy has cusps at the same angular momentum values as the mean-field theory. For large N, Wen's algebraic decay of the probability for resonant tunneling through the dot is reproduced, albeit with a different exponent
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