Cavity QED and Quantum Computation in the Strong Coupling Regime II : Two Atoms Case
Abstract
In this paper we study the behavior of (laser--cooled) m--atoms trapped in a cavity interacting with a photon
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Cavity QED
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and attempt to solve the Schr{ö}dinger equation of this model in the strong coupling regime. In the case of m = 2 we construct Bell--Schr{\" o}dinger cat states (in our terminology) and obtain with such bases some unitary transformations by making use of the rotating wave approximation under new resonance conditionscontaining the Bessel functions, which will be applied to construct important quantum logic gates in Quantum Computation. Moreover we propose in the case of m = 3 a crucial problem to solve on Quantum Computation.