Confinement, deconfinement, and bound states in the spin-1 and spin-2 3 generalizations of the Majumdar-Ghosh chain
Aman Sharma (École Polytechnique Fédérale de Lausanne)
Mithilesh Nayak (University of Fribourg, The University of Tennessee Knoxville)
Natalia Chepiga (University of Oxford, TU Delft - Applied Sciences, Kavli institute of nanoscience Delft)
Henrik M. Rønnow (École Polytechnique Fédérale de Lausanne)
Frédéric Mila (École Polytechnique Fédérale de Lausanne)
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Abstract
Using a combination of time-dependent density matrix renormalization group and single mode approximation, we investigate the dynamical structure factor of spin chains with antiferromagnetic nearest-neighbor J1, next-nearest-neighbor J2, and three-site J3 interactions and show that, in all gapped phases and at the transitions between them, a simple physical picture can be obtained in terms of magnons and spin-1/2 domain-wall excitations or spinons. This applies to the fully dimerized phase, where a magnon mode clearly pops out of the two-spinon continuum for spin-1 and spin-3/2, and to the transition between the dimerized phase and the Haldane phase (resp. partially dimerized phase) for spin-1 (resp. spin-3/2), where spinons are deconfined along the transition but get confined across it when it is first order. Implications for the interpretation of inelastic neutron scattering in spin chains are briefly discussed.