【 摘 要 】

Shot noise in the half-filled Landau level is studied within the composite-fermion picture, focusing on the diffusive regime. The composite fermions are assumed to form a Fermi liquid with nontrivial Fermi-liquid parameters. The Boltzmann-Langevin equation for this system is derived, taking proper account of fluctuations in both the Chern-Simons and the physical electric and magnetic fields. To leading order in max{eV, T}/E-F, the noise properties of composite fermions are found to equal those of semiclassical electrons in the external magnetic field. Nonequilibrium fluctuations in the Hall voltage are dominated by fluctuations in the Chern-Simons electric field, reflecting the finite Hall resistance of the system. The low-frequency noise power is derived in detail for the Corbino-disk geometry and turns out to be unaffected both by nontrivial Fermi-liquid parameters and by the magnetic field. The formalism is also applied to compute thermal density-density and current-current correlators at finite frequency and wave vector.

【 授权许可】

Free