Magnetoelastic coupling and spin excitations in the spin-gap system (VO)2P2O7: A Raman scattering study

Abstract

Single crystals of the spin-gap system (VO)2P2O7 have been investigated by means of Raman scattering. At temperatures below T=75 K~≈ 201( k=0), with 01 the singlet-triplet gap, a shoulder appears at 47 cm-1. An analysis of the polarization selection rules and the temperature dependence of the scattering intensity leads to its identification as a singlet bound state with very small binding energy. Therefore in contrast to recent theoretical models the importance of frustration for this compound must be rejected. The observation of a strong anharmonicity of three phonons with energies close to 01 at the zone boundary and additional quasielastic light scattering, however, both point to a strong spin-phonon coupling in this system. We propose this coupling to be the origin of the second bound triplet state observed in recent neutron scattering experiments.

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