Spin Defects in Spin-Peierls Systems

Abstract

We examine spin-Peierls systems in the presence of spin defects which are introduced by replacing magnetic ions Cu2+ with non-magnetic ones Zn2+ in CuGeO3. By using the action for the bosonized Hamiltonian, it is shown directly that the antiferromagnetic state induced by the spin defects coexists with the spin-Peierls states. Further the doping dependences of both transition temperature of spin-Peierls state and the spin gap have been calculated. The transition temperature of the present estimation shows good agreement quantitatively with that observed in Cu1- Zn O3 for the region of the doping rate, <0.02.

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