Friday, February 1, 2013

1301.7430 (Soumya Bera et al.)

Unveiling environmental entanglement in strongly dissipative qubits    [PDF]

Soumya Bera, Serge Florens, Harold Baranger, Nicolas Roch, Ahsan Nazir, Alex Chin
The coupling of a qubit to a macroscopic reservoir plays a fundamental role in understanding the complex transition from the quantum to the classical world. Considering a harmonic environment, we use both intuitive arguments and numerical many-body quantum tomography to study the structure of the complete wavefunction arising in the strong-coupling regime, reached for intense qubit-environment interaction. The resulting strongly-correlated many-body ground state is built from quantum superpositions of adiabatic (polaron-like) and non-adiabatic (antipolaron-like) contributions from the bath of quantum oscillators. The emerging Schr\"odinger cat environmental wavefunctions can be described quantitatively via simple variational coherent states. In contrast to qubit-environment entanglement, we show that non-classicality and entanglement among the modes in the reservoir are crucial for the stabilization of qubit superpositions in regimes where standard theories predict an effectively classical spin.
View original: http://arxiv.org/abs/1301.7430

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