Peierls transition in the quantum spin-Peierls model
Abstract
We use the density matrix renormalization group method to investigate the role of longitudinal quantized phonons on the Peierls transition in the spin-Peierls model. For both the XY and Heisenberg spin-Peierls model we show that the staggered phonon order parameter scales as λ (and the dimerized bond order scales as λ) as λ 0 (where λ is the electron-phonon interaction). This result is true for both linear and cyclic chains. Thus, we conclude that the Peierls transition occurs at λ=0 in these models. Moreover, for the XY spin-Peierls model we show that the quantum predictions for the bond order follow the classical prediction as a function of inverse chain size for small λ. We therefore conclude that the zero λ phase transition is of the mean-field type.
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