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Quantum phase transition and quench dynamics in the two-mode Rabi model

Li-Tuo Shen, Jingwen Yang, Zhi‐Rong Zhong, Zhen‐Biao Yang, Shi‐Biao Zheng

2021Physical review. A/Physical review, A17 citationsDOI

Abstract

The second-order quantum phase transition and quench dynamics in the two-mode Rabi model are investigated. We propose a diagonalization approach of jointly using a beam-splitter operator and a squeezed operator for each effective low-energy Hamiltonian when the ratio of the qubit transition frequency to the oscillator frequency approximates infinity. Eigenenergy and eigenstate of the normal and superradiant phases in the system are analytically derived, demonstrating the second-order quantum phase transition at a critical point. This critical point means that the requirement of coupling strength between the qubit and two oscillators is largely loosened by joint effect of two modes when compared with the standard Rabi model. The universal scaling between residual energy and quench time from ${\ensuremath{\tau}}^{\ensuremath{-}\frac{1}{3}}$ to ${\ensuremath{\tau}}^{\ensuremath{-}2}$ is confirmed.

Topics & Concepts

PhysicsQuantum phase transitionHamiltonian (control theory)Rabi frequencyQubitQuantum mechanicsRabi cycleEnergy operatorQuantum critical pointPhase qubitPhase transitionQuantumOperator (biology)Eigenvalues and eigenvectorsEnergy (signal processing)Transcription factorRepressorLaserGeneMathematicsMathematical optimizationChemistryBiochemistryQuantum Information and CryptographyQuantum and electron transport phenomenaQuantum many-body systems
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