Sergio Carrasco scite author profile

Sergio Carrasco

3Publications

28Citation Statements Received

140Citation Statements Given

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147

138

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Pontificia Universidad Católica de Chile

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Weak-value amplification of photon-number operators in the optomechanical interaction

Carrasco

Orszag

2019

Phys. Rev. A

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An experimental proposal is presented in which dark port post-selection together with weak measurements are used to enlarge the radiation pressure effect of a single photon on a mechanical oscillator placed in the middle of a Fabry-Pérot cavity and initialized in the ground state. By preparing and post-selecting the photon (the system) in two quasi orthogonal states, the weak value of the radiation force operator can lie outside the eigenvalue spectrum, producing a large shift on the wave function of the mechanical oscillator (the measuring device) in the position representation. Consequently, the effect of a single photon on the average position of the oscillator in its final state can be amplified as compared to the effect caused by a photon without post-selection, i.e. only preselected. The strong measurement scenario is also analyzed. In this case, a higher amplification effect is achieved and the mean position of the oscillator reaches the level of the zero-point fluctuation, but the back-action on the system is increased and the post-selection probabilities are smaller.

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Amplification of mechanical quadratures using weak values

Carrasco¹,

Orszag²

2022

Phys. Scr.

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An interferometric arrangement is proposed in which the technique of weak value ampliﬁcation is implemented in order to enlarge the eﬀect of a single photon on the quadratures of a movable mirror of an optical cavity. The photon interacts weakly with the mirror via radiation pressure and is postselected in the dark port of the interferometer. The real and imaginary parts of weak values of angular momentum type photonic operators produce an ampliﬁcation of the mirror quadratures, which is large as compared to the scenario in which all photons are taken into consideration, i.e. when no postselection is performed. The eﬀect is studied both for a mirror initialized in a thermal and coherent states. For a thermal state, the weak value ampliﬁcation eﬀect is boosted with the number of particles of the mirror, which occurs due to the imaginary part of the weak values.

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Estimation of an optomechanical parameter via weak-value amplification

Carrasco

Orszag

2022

Phys. Rev. A

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Sergio Carrasco

Weak-value amplification of photon-number operators in the optomechanical interaction

Amplification of mechanical quadratures using weak values

Estimation of an optomechanical parameter via weak-value amplification

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