The fundamental unit of quantum conductance and quantum diffusion for a gas of massive particles

Abstract

By analogy with the fundamental quantum units of electrical conductance G0e=2 e2h and thermal conductance K0t=2 KB2 Th we define a fundamental quantum unit of conductance, G0m, and diffusion of a massive gas of atomic particles, respectively given by G0m=m2h \ , \ D0=hm with h the Planck constant, KB the Boltzmann constant, T the absolute temperature, e the unit charge and m the mass of the atomic gas particle that move balistically in a one dimensional medium of length L. The effect of scattering can be accounted for by introducing an appropriate transmission probability in analogy with the quantum electrical conductance model introduced by Landauer in 1957. For an electron gas G0m=1.25 × 10-27 \ Kg2/(J s) and D0 = 7.3 × 10-3 \ m2/s, and we found a quantum expression for the generalized Einstein relation that writes G0e = 2e2mh2 D0

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