Critical Analyse of Dynamical of Quantum Pendular Cavity / Análise Crítica da Dinâmica de uma Cavidade Pendular Quântica

AUTOR(ES)

Andrea Barroso Melo

DATA DE PUBLICAÇÃO

2004

RESUMO

We perform a quantum mechanical analysis of a pendular cavity, using the positive-P representation, showing that the quantum state of the moving mirror, a microscopic object, has noticeable eects on the dynamics. This system was previously been proposed as a candidate for the quantum-limited measurement of small displacements os the mirror due to radiation pressure, for the production of states with entanglement between the mirror and the field, and even for superposition states of the mirror. However, when we treat the oscillating mirror quantum mechanically, we find that it always oscillates, has no stationary steady-state, and exhibits uncertainties in position and momentum wich are typically large than the mean values. This means that previous linearised fluctuation analyses wich have been used to predict these highly quantum states are of limited use. We find that achievable accuracy in measurement is far worse than the standard quantum limit due to thermal noise, which, for typical experimental parameters, is overwhelming even at 2mK.

ASSUNTO(S)

quantum optics processos estocásticos fisica da materia condensada teoria das representações stochastic process equações de fokker-planck optica quântica fokker-planck equations

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