S. Wallentowitz scite author profile

Raman-type laser excitation of a trapped atom allows one to realize the quantum mechanical counterpart of phenomena of nonlinear optics, such as Kerr-type nonlinearities, parametric amplification and multi-mode mixing. Additionally, huge nonlinearities emerge from the interference of the atomic wave function with the laser waves. They lead to a partitioning of the phase space accompanied by a significantly different action of the time evolution in neighboring phase-space zones. For example, a nonlinearly modified coherent "displacement" of the motional quantum state may induce strong amplitude squeezing and quantum interferences.

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Decoherence of molecular vibrational wave packets: Observable manifestations and control criteria

Brif

Rabitz

Wallentowitz

et al. 2001

Phys. Rev. A

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Determination of entangled quantum states of a trapped atom

1997

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We propose a method for measuring entangled vibronic quantum states of a trapped atom. It is based on the nonlinear dynamics of the system that appears by resonantly driving a weak electronic transition. The proposed technique allows the direct sampling of a Wigner-function matrix, displaying all knowable information on the quantum correlations of the motional and electronic degrees of freedom of the atom. It opens novel possibilities for testing fundamental predictions of the quantum theory concerning interaction phenomena.

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S. Wallentowitz

Unbalanced homodyning for quantum state measurements

Reconstruction of the Quantum Mechanical State of a Trapped Ion

Quantum-mechanical counterpart of nonlinear optics

Decoherence of molecular vibrational wave packets: Observable manifestations and control criteria

Determination of entangled quantum states of a trapped atom

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