We develop an exact computational method based on numerical X-propagators for solving po- laron models with arbitrary nonlinear couplings of local vibration modes to the electron density and magnitude of the hopping amplitude. Our approach covers various polaron models, some of which were impossible to treat by any existing approximation-free techniques. Moreover, it remains efficient in the most relevant but computationally challenging regime of phonon frequencies much smaller than the electron bandwidth. As a case study, we consider the double-well type nonlinear model with quadratic (g2 < 0) and quartic (g4 > 0) interactions describing a broad class of techno- logically important materials, such as quantum paraelectric compounds and halide perovskites. We observe, depending on the model parameters, three qualitatively different regimes: (i) quantum in- terplay of quartic and quadratic interactions which suppresses effects of the quadratic coupling, (ii) intermediate-coupling regime with exponential ∝ exp(αg2Ω−1/4) scaling of the quasiparticle weight and mass renormalization, and (iii) strong-coupling asymptotic behavior.
Ragni, S., Miskic, T., Hahn, T., Prokof'Ev, N., Barisic, O.S., Nagaosa, N., et al. (2025). Polarons with arbitrary nonlinear electron-phonon interaction. PHYSICAL REVIEW RESEARCH, 7(4), 1-16 [10.1103/6127-phps].
Polarons with arbitrary nonlinear electron-phonon interaction
Franchini C.
Penultimo
Supervision
;
2025
Abstract
We develop an exact computational method based on numerical X-propagators for solving po- laron models with arbitrary nonlinear couplings of local vibration modes to the electron density and magnitude of the hopping amplitude. Our approach covers various polaron models, some of which were impossible to treat by any existing approximation-free techniques. Moreover, it remains efficient in the most relevant but computationally challenging regime of phonon frequencies much smaller than the electron bandwidth. As a case study, we consider the double-well type nonlinear model with quadratic (g2 < 0) and quartic (g4 > 0) interactions describing a broad class of techno- logically important materials, such as quantum paraelectric compounds and halide perovskites. We observe, depending on the model parameters, three qualitatively different regimes: (i) quantum in- terplay of quartic and quadratic interactions which suppresses effects of the quadratic coupling, (ii) intermediate-coupling regime with exponential ∝ exp(αg2Ω−1/4) scaling of the quasiparticle weight and mass renormalization, and (iii) strong-coupling asymptotic behavior.| File | Dimensione | Formato | |
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