Random magnetic field and the Dirac Fermi surface
PHYSICAL REVIEW B(2023)
摘要
We study a single two-dimensional Dirac fermion at finite density, subject to a quenched random magnetic field. At low energies and sufficiently weak disorder, the theory maps onto an infinite collection of 1D chiral fermions (associated to each point on the Fermi surface) coupled by a random vector potential. This low-energy theory exhibits an exactly solvable random fixed line, along which we directly compute various disorder-averaged observables without the need for the usual replica, supersymmetry, or Keldysh techniques. We find the longitudinal dc conductivity in the collisionless h over bar omega/kBT -> infinity limit to be nonuniversal and to vary continuously along the fixed line.
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