Long-range spin correlations in a honeycomb spin model with magnetic field

Abstract

We consider spin-12 model on the honeycomb lattice in the presence of weak magnetic field h J. Such a perturbation treated in the second order over h leads to the power-law decay of irreducible spin correlation function S(r,t)= szr(t)sz0(0) hz2f(t,r), where f(t,r) (t,Jr)]-4 is an oscillating function of r, with a wavelength equal to 3 lattice constants. In the present Letter we sum main terms in all orders of the perturbation theory for the correlation function S(r,t) in the limit of large r,t. Our results can be understood in terms of the effective low-energy Hamiltonian written in terms of Majorana fermions, which in the presence of magnetic field acquire vector potential Ax hz2. Correspondingly, the wave vector of the oscillations in S(r,t) changes according to δ k hz2. We also compute the dynamic structure factor S(p,ω); in the vicinity of pK corresponding to the inter-conical points excitations it reads as S(p,ω)-S(pK,ω)ω2-3J2(p-pK)2.