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Recently, superconducting artificial atom has been justified experimentally as an ideal element for various
applications including circuit quantum electrodynamics realizing strong-coupling limit. Some of the proposed
systems in this area are usually described in terms of the quantum anharmonic oscillator and display quantum
dynamics in macroscopic level, giant nonlinearity as well as very strong coupling with external field and strong
coupling with an environment. In this report, we investigate the quantum properties of an artificial atom as a
model of multilevel anharmonic oscillator in the framework of photon number distributions as well as the Wigner
functions. We concentrate on the regimes of strong driving and giant nonlinearity that allow us to consider
artificial atom on the level of few excitation numbers.
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A. R. Shahinyan, T. V. Gevorgyan, G. Yu. Kryuchkyan, "Artificial atom in quantum distributions," Proc. SPIE 7998, International Conference on Laser Physics 2010, 799817 (4 March 2011); https://doi.org/10.1117/12.890975