Evidence of anomalous Curie constants for nonmagnetic impurities in a critical 2-dimensional JQ3 model on the honeycomb lattice
Abstract
The Curie constants C* = T→ 0Timp of a spin-1/2 and a spin-1 impurities are calculated using the quantum Monte Carlo simulations. Here the impurity susceptibility imp is the difference between the uniform susceptibilities with and without the impurity and T is the temperature. Moreover, the two-dimensional quantum JQ3 model on the honeycomb lattice is considered as the host system. Timp as a function T is investigated in great detail. Remarkably, our data indicate strongly that C* > 0.25 and C* > 2/3 for the spin-1/2 and the spin-1 impurities, respectively. In particular, although no definite conclusion is obtained due to finite-size effects, we find the Curie constant associated with a spin-1/2 impurity likely converges to a value greater than the established result of 0.262(2) in the literature. The outcomes reached here provide certain evidence that fractional impurity spin is observed for the studied JQ3 system.
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