According to quantum mechanics, there exists a class of observables for which is possible to confine the perturbation produced by a continuous measurement to the conjugate variable. Therefore, it is possible to devise experimental schemes that allow estimating the observed variable with arbitrary accuracy, or preparing it in a well-known state. Such schemes are referred to as quantum non-demolition measurements (QND). Among these observables there is the amplitude of the light field. Indeed, it is possible to exploit a movable mirror to implement a QND scheme [1]. Intensity fluctuations of an optical field impinging on it are not affected by the interaction. However, the movable mirror is excited by the associated radiation pressure. This, in turn, affects the phase of the field.
Quantum nondemolition measurement of light intensity fluctuations in an optomechanical experiment / Pontin A.; Bonaldi M.; Borrielli A.; Marconi L.; Marino F.; Pandraud G.; Prodi G.A.; Sarro P.M.; Serra E.; Marin F.. - ELETTRONICO. - 2017:(2017), pp. 0-0. ( European Quantum Electronics Conference, EQEC 2017 deu 2017) [10.1109/CLEOE-EQEC.2017.8087321].
Quantum nondemolition measurement of light intensity fluctuations in an optomechanical experiment
Pontin A.;Marconi L.;Marino F.;Marin F.
2017
Abstract
According to quantum mechanics, there exists a class of observables for which is possible to confine the perturbation produced by a continuous measurement to the conjugate variable. Therefore, it is possible to devise experimental schemes that allow estimating the observed variable with arbitrary accuracy, or preparing it in a well-known state. Such schemes are referred to as quantum non-demolition measurements (QND). Among these observables there is the amplitude of the light field. Indeed, it is possible to exploit a movable mirror to implement a QND scheme [1]. Intensity fluctuations of an optical field impinging on it are not affected by the interaction. However, the movable mirror is excited by the associated radiation pressure. This, in turn, affects the phase of the field.
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