Journal
PHYSICAL REVIEW B
Volume 107, Issue 10, Pages -Publisher
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevB.107.L100404
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We study the nonlinear response of nonintegrable 1D spin models using infinite matrix-product state techniques. As a benchmark, we calculate the 2D coherent spectroscopy for the soluble ferromagnetic transverse field Ising model. By introducing a longitudinal field, we observe the emergence of strong nonrephasinglike signals, and use a two-kink approximation to interpret the phenomena.
We study the nonlinear response of nonintegrable one-dimensional (1D) spin models using infinite matrix-product state techniques. As a benchmark and demonstration of the method, we first calculate the two-dimensional (2D) coherent spectroscopy for the exactly soluble ferromagnetic transverse field Ising model where excitations are freely moving domain walls. We then investigate the distinct signatures of confined bound states by introducing a longitudinal field and observe the emergence of strong nonrephasinglike signals. To interpret the observed phenomena, we use a two-kink approximation to perturbatively compute the 2D spectra. We find good agreement in comparison with the exact results of the infinite matrix-product state method in the strongly confined regime. We discuss the relevance of our results for quasi-1D Ising spin chain materials, such as CoNb2O6.
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