AI Article Synopsis
- The paper discusses the importance of ultrstrongly coupling (USC) systems in quantum simulations and computing, specifically focusing on a circuit QED system with two qubits coupled to a cavity.
- It highlights how the traditional JC model fails in the USC regime, leading to unique energy level behaviors and introducing an equivalent four-level dressed state model that captures the effects of qubit decay.
- The study reveals that a narrow peak in the cavity's emission spectrum is caused by vacuum-induced quantum interference, which connects noise components of the system and enhances the understanding of quantum interference in USC systems.
Article Abstract
The ultrastrongly coupling (USC) system has very important research significance in quantum simulation and quantum computing. In this paper, the ultranarrow spectrum of a circuit QED system with two qubits ultrastrongly coupled to a single-mode cavity is studied. In the regime of USC, the JC model breaks down and the counter-rotating terms in the quantum Rabi Hamiltonian leads to the level anti-crossing in the energy spectrum. Choosing a single-photon driving field at the point of avoided-level crossing, we can get an equivalent four-level dressed state model, in which the dissipation of the two intermediate states is only related to the qubits decay. Due to the electron shelving of these two metastable states, a narrow peak appears in the cavity emission spectrum. Furthermore, we find that the physical origin for the spectral narrowing is the vacuum-induced quantum interference between two transition pathways. And this interference effect couples the slowly decaying incoherent components of the density matrix into the equations of the sidebands. This result provides a possibility for the study of quantum interference effect in the USC system.
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| http://dx.doi.org/10.1364/OE.432358 | DOI Listing |
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