Quantum metrology bears a great promise in enhancing measurement precision, but is unlikely to become practical in the near future. Its concepts can nevertheless inspire classical or hybrid methods of immediate value. Here we demonstrate NOON-like photonic states of m quanta of angular momentum up to m1⁄4100, in a setup that acts as a ‘photonic gear’, converting, for each photon, a mechanical rotation of an angle y into an amplified rotation of the optical polarization by my, corresponding to a ‘super-resolving’ Malus’ law. We show that this effect leads to single-photon angular measurements with the same precision of polar- ization-only quantum strategies with m photons, but robust to photon losses. Moreover, we combine the gear effect with the quantum enhancement due to entanglement, thus exploiting the advantages of both approaches. The high ‘gear ratio’ m boosts the current state of the art of optical non-contact angular measurements by almost two orders of magnitude.
Photonic polarization gears for ultra-sensitive angular measurements / D'Ambrosio, Vincenzo; Nicolò, Spagnolo; Lorenzo Del Re, ; Sergei, Slussarenko; Ying, Li; Leong Chuan Kwek, ; Marrucci, Lorenzo; Walborn, Stephen P.; Leandro, Aolita; Fabio, Sciarrino. - In: NATURE COMMUNICATIONS. - ISSN 2041-1723. - 4:(2013), pp. 2432-1-2432-8. [10.1038/ncomms3432]
Photonic polarization gears for ultra-sensitive angular measurements
Vincenzo D'Ambrosio;MARRUCCI, LORENZO;
2013
Abstract
Quantum metrology bears a great promise in enhancing measurement precision, but is unlikely to become practical in the near future. Its concepts can nevertheless inspire classical or hybrid methods of immediate value. Here we demonstrate NOON-like photonic states of m quanta of angular momentum up to m1⁄4100, in a setup that acts as a ‘photonic gear’, converting, for each photon, a mechanical rotation of an angle y into an amplified rotation of the optical polarization by my, corresponding to a ‘super-resolving’ Malus’ law. We show that this effect leads to single-photon angular measurements with the same precision of polar- ization-only quantum strategies with m photons, but robust to photon losses. Moreover, we combine the gear effect with the quantum enhancement due to entanglement, thus exploiting the advantages of both approaches. The high ‘gear ratio’ m boosts the current state of the art of optical non-contact angular measurements by almost two orders of magnitude.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
