Sergey A. Vitkalov
Published 2001-02-22Version 1
Recent experiments in silicon MOSFETs indicate that the Hall coefficient is independent of magnetic field applied at a small angle with respect to the plane. Below a scattering between spin-up and spin-down carriers is considered to be the main reason for the experimental observation. Comparison of two band model with experiment provides an upper limit for the electron-electron scattering time $\tau_{ee}$ in the dilute 2D electron system as a function of electron density $n_s$. The time $\tau_{ee}$ increases gradually with $n_s$, becoming much greater than the transport scattering time $\tau_p$ for densities $n_s>4 \times 10 ^{11}$ cm$^{-2}$. Strong electron-electron scattering is found for $1.22 \times 10 ^{11} <n_s<3 \times 10 ^{11}$ cm$^{-2}$, the region which is near to the apparent metal insulator transition.
Comments: 5 pages, 4 figures
Multifractality and electron-electron interaction at Anderson transitions
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Electron-electron interaction in 2D and 1D ferromagnetic (Ga,Mn)As
