Abstract

Electron Multiplying Charge-Coupled Device (EMCCD) cameras utilize an on-chip amplification process which boosts low-light signals above the readout noise floor. Although traditionally used for biological imaging, they have recently attracted interest for single-photon counting and entangled state characterization in quantum information processing applications. In addition, they exhibit some photon number-resolving capacity, which is attractive from the point-of-view of several applications in optical continous-variable computing, such as building a cubic phase gate. We characterize the Andor Luca-R EMCCD camera as an affordable tool for applications in optical quantum information. We present measurements of single-photon detection efficiency, dark count probability as well as photon-number resolving capacity and place quantitative bounds on the noise performance and detection efficiency of the EMCCD …

Date

January 1, 1970

Authors

Monika Patel, Jian Chen, Jonathan Habif

Journal

APS March Meeting Abstracts

Volume

2013

Pages

F26. 007