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Paper detail

Direct measurement of the Wigner function by photon-number-resolving detection

Photon-number-revolving (PNR) detection allows the direct measurement of the Wigner quasiprobability distribution of an optical mode without the need for numerically processing an inverse Radon transform [K. Banaszek and K. Wódkiewicz, Phys. Rev. Lett. 76, 4344 (1996)]. In this work, we reproduced the seminal experiment of Banaszek et al. [Phys. Rev. A 60, 674 (1999)] of quantum tomography of a pure coherent state, and of a statistical mixture thereof, and extended it to the more general case of photon fluxes with much more than one photon per detection time. This was made possible by the use of a superconducting transition-edge sensor to perform PNR detection from 0 to 5 photons at 1064 nm, at about 70% system efficiency and with no dead time. We detail signal acquisition and detection efficiency and discuss prospects for applying such quantum tomography to non-Gaussian states.

preprint2014arXivOpen access
Niranjan SridharReihaneh ShahrokhshahiAaron J. MillerBrice CalkinsThomas GerritsAdriana LitaSae Woo NamOlivier Pfister
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Niranjan SridharReihaneh ShahrokhshahiAaron J. MillerBrice CalkinsThomas GerritsAdriana LitaSae Woo NamOlivier Pfister

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