Physics – Condensed Matter – Mesoscale and Nanoscale Physics
Scientific paper
2010-07-21
Physics
Condensed Matter
Mesoscale and Nanoscale Physics
15 pages, 3 figures
Scientific paper
We calculate the electronic viscosity for a multiple quantum well structure in the presence of disorder potential(V = 4 meV), the electron-electron repulsion(U = 5-17 meV) and a strong magnetic field (B greater than or equal to 16.5 T) in the direction in which the electrons are trapped. This viscosity is different from the dissipation-less Hall viscosity which cannot take non-zero value in a time reversal invariant system. The Fermi energy density of states for the system has been calculated in the t-matrix approximation assuming low concentration of impurities. Our approach involves calculation of the density of viscosity, for temperature close to 0 K, on the Brillouin zone(BZ) followed by the numerical evaluation of the integral of viscosity density over the BZ. We show that (i) the viscosity coefficient is nearly proportional to B for given (V,U),and (ii) dissipation-less state, analogous to superfluidity, is possible for a critical value of U when (V, B) are given. We also calculate the entropy per particle (S) and show that the results comply with the KSS bound reported by Kovtun et al.
Goswami Partha
Kapoor Avinashi
Singh Gahlot Ajay Pratap
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