Corpus ID: 55025043

An Impedance Approach to the Chiral Anomaly

@inproceedings{Cameron2014AnIA,
  title={An Impedance Approach to the Chiral Anomaly},
  author={P. Cameron},
  year={2014}
}
  • P. Cameron
  • Published 2014
  • The chiral potential is inverse square. The family of inverse square potentials includes the vector Lorentz potential of the quantum Hall and Aharonov-Bohm effects, and the centrifugal, Coriolis, and three body potentials. The impedances associated with these potentials are scale invariant, the quantum Hall impedance being the most familiar. The scale invariant impedances communicate only quantum phase, not an observable in a single quantum measurement. The scale dependent impedances, including… CONTINUE READING
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    References

    SHOWING 1-10 OF 105 REFERENCES
    Axial vector vertex in spinor electrodynamics
    • 2,350
    • PDF
    Quantum fluctuations and the single-junction Coulomb blockade.
    • 151
    Violation of Kirchhoff's Laws for a Coherent RC Circuit
    • 217
    • PDF
    The fine-structure constant, magnetic monopoles and dirac charge quantization condition
    • 6
    The Smith chart and quantum mechanics
    • 5
    Is the quantum Hall effect influenced by the gravitational field?
    • 33
    • PDF
    Gravity, gauge theories and geometric algebra
    • 200
    • PDF
    Attractive inverse square potential, U(1) gauge, and winding transitions.
    • 9
    • PDF