Statistical reconstruction of optical quantum states based on mutually complementary quadrature quantum measurements


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Abstract

We describe a new method for reconstructing the quantum state of the electromagnetic field from the results of mutually complementary optical quadrature measurements. This method is based on the root approach and displaces squeezed Fock states are used as the basis. Theoretical analysis and numerical experiments demonstrate the considerable advantage of the developed tools over those described in the literature.

About the authors

Yu. I. Bogdanov

Institute of Physics and Technology; National Research Nuclear University MEPhI; National Research University Moscow Institute of Electronic Technology

Author for correspondence.
Email: bogdanov_yurii@inbox.ru
Russian Federation, Moscow, 117218; Moscow, 115409; Moscow, 124498

G. V. Avosopyants

Institute of Physics and Technology; National Research University Moscow Institute of Electronic Technology

Email: bogdanov_yurii@inbox.ru
Russian Federation, Moscow, 117218; Moscow, 124498

L. V. Belinskii

Institute of Physics and Technology; National Research University Moscow Institute of Electronic Technology

Email: bogdanov_yurii@inbox.ru
Russian Federation, Moscow, 117218; Moscow, 124498

K. G. Katamadze

Institute of Physics and Technology; Moscow State University

Email: bogdanov_yurii@inbox.ru
Russian Federation, Moscow, 117218; Moscow, 119991

S. P. Kulik

Moscow State University

Email: bogdanov_yurii@inbox.ru
Russian Federation, Moscow, 119991

V. F. Lukichev

Institute of Physics and Technology

Email: bogdanov_yurii@inbox.ru
Russian Federation, Moscow, 117218

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