In the ideal quantum Zeno (QZ) effect, repeated quantum projective measurements can freeze the coherent dynamics of a quantum system. However, in the weak QZ regime, measurement back-actions can allow the sensing of semi-classical field fluctuations. In this regard, we theoretically show how to combine the controlled manipulation of a quantum two-level system, used as a probe, with a sequence of projective measurements to have direct access to the noise correlation function. We experimentally test the effectiveness of the proposed noise sensing method on a properly engineered Bose-Einstein condensate of 87 Rb atoms realized on an atom chip. We believe that our QZ-based approach can open a new path towards novel quantum sensing devices.
Experimental proof of quantum Zeno-assisted noise sensing / Do H.-V.; Lovecchio C.; Mastroserio I.; Fabbri N.; Cataliotti F.S.; Gherardini S.; Muller M.M.; Dalla Pozza N.; Caruso F.. - In: NEW JOURNAL OF PHYSICS. - ISSN 1367-2630. - STAMPA. - 21:(2019), pp. 113056/1-113056/12. [10.1088/1367-2630/ab5740]
Experimental proof of quantum Zeno-assisted noise sensing
Do H. -V.
;Lovecchio C.;Fabbri N.;Cataliotti F. S.;Gherardini S.;Dalla Pozza N.;Caruso F.
2019
Abstract
In the ideal quantum Zeno (QZ) effect, repeated quantum projective measurements can freeze the coherent dynamics of a quantum system. However, in the weak QZ regime, measurement back-actions can allow the sensing of semi-classical field fluctuations. In this regard, we theoretically show how to combine the controlled manipulation of a quantum two-level system, used as a probe, with a sequence of projective measurements to have direct access to the noise correlation function. We experimentally test the effectiveness of the proposed noise sensing method on a properly engineered Bose-Einstein condensate of 87 Rb atoms realized on an atom chip. We believe that our QZ-based approach can open a new path towards novel quantum sensing devices.
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