Spin Dynamics in S=1/2 Chains with Next-Nearest-Neighbor Exchange Interactions

Abstract

Low-energy magnetic excitations in the spin-1/2 chain compound (C6H9N2)CuCl3 [known as (6MAP)CuCl3] are probed by means of tunable-frequency electron spin resonance. Two modes with asymmetric (with respect to the h=gμB B line) frequency-field dependences are resolved, illuminating the striking incompatibility with a simple uniform S=12 Heisenberg chain model. The unusual ESR spectrum is explained in terms of the recently developed theory for spin-1/2 chains, suggesting the important role of next-nearest-neighbor interactions in this compound. Our conclusion is supported by model calculations for the magnetic susceptibility of (6MAP)CuCl3, revealing a good qualitative agreement with experiment.