Kondo Temperature for the Two-Channel Kondo Models of Tunneling Centers
Abstract
The possibility for a two-channel Kondo (2CK) non Fermi liquid state to appear in a metal as a result of the interaction between electrons and movable structural defects is revisited. As usual, the defect is modeled by a heavy particle moving in an almost symmetric double-well potential (DWP). Taking into account only the two lowest states in DWP is known to lead to a Kondo-like Hamiltonian with rather low Kondo temperature, TK. We prove that, in contrast to previous believes, the contribution of higher excited states in DWP does not enhance TK. On the contrary, TK is reduced by three orders of magnitude as compared with the two-level model: the prefactor in TK is determined by the spacing between the second and the third levels in DWP rather than by the electron Fermi energy. Moreover, TK, turns out to be parametrically smaller than the splitting between the two lowest levels. Therefore, there is no microscopic model of movable defects which may justify non-Fermi liquid 2CK phenomenology.
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