Two coupled Jaynes-Cummings cells

@inproceedings{Xue2011TwoCJ,
  title={Two coupled Jaynes-Cummings cells},
  author={Peng Xue and Zbigniew Ficek and Barry C. Sanders},
  booktitle={Optical Engineering + Applications},
  year={2011}
}
We develop a theoretical framework to evaluate the energy spectrum, stationary states, and dielectric susceptibility of two Jaynes-Cummings systems coupled together by the overlap of their respective longitudinal field modes, and we solve and characterize the combined system for the case that the two atoms and two cavities share a single quantum of energy. 
1 Citations
Probing multipartite entanglement in a coupled Jaynes-Cummings system
A single two-level atom coupled to a single cavity, orresonator, mode has been studied intensively since the intro-duction of the “Jaynes-Cummings (JC) Model” independentlyby Jaynes and Cummings [1]

References

SHOWING 1-10 OF 19 REFERENCES
Photon Correlation Spectroscopy.
A two-state atom interacting with a resonant mode ofthe radiation field is the elementary system underlying thePlanck hypothesis and the Einstein theory of spontaneousand stimulated emission. In its
Photon-blockade-induced Mott transitions and XY spin models in coupled cavity arrays
We propose a physical system where photons could exhibit strongly correlated effects. We demonstrate how a Mott-insulator phase of atom-photon excitations (polaritons) can arise in an array of
Mott-insulating and glassy phases of polaritons in 1D arrays of coupled cavities.
TLDR
The phase boundary is located, the behavior of the polariton compressibility and visibility fringes across the critical point is discussed, and a nontrivial scaling of the phase boundary as a function of the number of atoms inside each cavity is found.
Climbing the Jaynes–Cummings ladder and observing its nonlinearity in a cavity QED system
TLDR
Measuring the photonic degree of freedom of the coupled system, the measurements provide unambiguous spectroscopic evidence for the quantum nature of the resonant atom–field interaction in cavity QED.
Quantum phase transitions of light
The ability to conduct experiments at length scales and temperatures at which interesting and potentially useful quantum-mechanical phenomena emerge in condensed-matter or atomic systems is now
Periodic spontaneous collapse and revival in a simple quantum model
This Letter reports on the existence of periodic spontaneous collapse and revival of coherence in the dynamics of a simple quantum model. Also given are the first accurate expressions for the
Quantum Rabi oscillation: A direct test of field quantization in a cavity.
TLDR
This investigation of the excited levels of the atom-cavity system reveals nonlinear quantum features at extremely low field strengths.
Comparison of quantum and semiclassical radiation theories with application to the beam maser
This paper has two purposes: 1) to clarify the relationship between the quantum theory of radiation, where the electromagnetic field-expansion coefficients satisfy commutation relations, and the
Quantum many‐body phenomena in coupled cavity arrays
The increasing level of experimental control over atomic and optical systems gained in recent years has paved the way for the exploration of new physical regimes in quantum optics and atomic physics,
...
...