Toru Kawakubo, Katsuji Yamamoto
Published 2010-07-09Version 1
Optical homodyne detection is examined in view of joint probability distribution. It is usually discussed that the relative phase between independent laser fields are localized by photon-number measurements in interference experiments such as homodyne detection. This provides reasoning to use operationally coherent states for laser fields in the description of homodyne detection and optical quantum-state tomography. Here, we elucidate these situations by considering the joint probability distribution and the invariance of homodyne detection under the phase transformation of optical fields.
Comments: 8 pages, 2 figures; REVTeX 4.1
Journal: Phys. Rev. A 82, 032102 (2010)
Joint measurements and Bell inequalities
Generalized monogamy of contextual inequalities from the no-disturbance principle
Single photon-added coherent states: estimation of parameters and fidelity of the optical homodyne detection
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