SPIN DYNAMICS OF THE ONE-DIMENSIONAL J-J' MODEL AND SPIN-PEIERLS TRANSITION IN CUGEO3

Spin dynamics as well as static properties of the one-dimensional J-J' model (S = 1/2, J > 0 and 0 less than or equal to alpha = J'/J less t han or equal to 0.5) are studied by the exact diagonalization and the recursion method of finite systems up to 26 sites. Especially, the dyn amical structure factor S(q, omega) is investigated carefully for vari ous values of alpha. As a increases beyond the gapless-gapful critical value alpha(c) = 0.2411, there appear features definitely different f rom the Heisenberg model but the same with the Majumdar-Ghosh model. S ome of these features depend only on the value of alpha and not on del ta: a parameter introduced for the coupling alternation. By comparing these results with a recent inelastic neutron scattering spectrum of a n inorganic spin-Peierls compound CuGeO3 [M. Arai et al.: Phys. Rev. L ett. 77 (1996) 3649], it is found that the frustration by J' in CuGeO3 is unexpectedly strong (alpha = 0.4-0.45), and at least alpha must be larger than alpha(c) to some extent. The value of J is evaluated at s imilar to 180 K consistent with other estimations. The coupling altern ation is extremely small. This large frustration is a primary origin o f the various anomalous properties CuGeO3 possesses. For comparison we refer also to alpha'-NaV2O5.