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W4387132171 abstract "We demonstrate a strong influence of the phonon environment on the coherent dynamics of the quantum dot (QD)-cavity system in the quantum strong coupling regime. This regime is implemented in the nonlinear QD-cavity QED and can be reliably measured by heterodyne spectral interferometry. We present a semianalytic asymptotically exact path integral-based approach to the nonlinear optical response of this system, which includes two key ingredients: Trotter's decomposition and linked-cluster expansion. Applied to the four-wave-mixing optical polarization, this approach provides access to different excitation and measurement channels, as well as to higher-order optical nonlinearities and quantum correlators. Furthermore, it allows us to extract useful analytic approximations and analyze the nonlinear optical response in terms of quantum transitions between phonon-dressed states of the anharmonic Jaynes-Cummings (JC) ladder. Being well described by these approximations at low temperatures and small exciton-cavity coupling, the exact solution deviates from them for stronger couplings and higher temperatures, demonstrating remarkable non-Markovian effects, spectral asymmetry, and strong phonon renormalization of the JC ladder." @default.
W4387132171 created "2023-09-29" @default.
W4387132171 creator A5009353126 @default.
W4387132171 creator A5092392086 @default.
W4387132171 date "2023-09-28" @default.
W4387132171 modified "2023-10-18" @default.
W4387132171 title "Impact of the phonon environment on the nonlinear quantum-dot–cavity QED: Path-integral approach" @default.
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W4387132171 doi "https://doi.org/10.1103/physrevb.108.115312" @default.
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