Abstract
Employing the state-of-the-art time-dependent variational principle algorithm, we compute the spectra of charge neutral excitations in the ν = 1/2 fractional Chern insulator (FCI) on the Haldane honeycomb lattice model with hard-core bosons. The magnetoroton visualized from the dynamic density structure factor, acquire a minimum gap at finite momentum that can go soft with increasing interaction and give rise to a charge density wave (CDW) at the same wavevector. The sharper and more concentrated spectral weight of the roton mode is observed when approaching the FCI-CDW transition while the single-particle gap remains intact. We also resolve the graviton mode around Γ point of the Brillouin zone by measuring the dynamic quadrupolar density correlations. Interestingly, we not only reveal the graviton response is chiral for a certain FCI, but also show the different chiralities of the graviton of opposite-sign Hall conductance for the first time. Our results offer the clear spectral observations of magnetoroton and chiral graviton in a lattice model of FCI and will have relevance towards the on-going experiments of tunable FCIs in quantum moiré materials.
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