Statistical parameter estimation of multimode multiphoton subtracted   thermal states of light

G. V. Avosopiants; B. I. Bantysh; K. G. Katamadze; N. A. Bogdanova,; Yu. I. Bogdanov; S. P. Kulik

arXiv:2102.08350·quant-ph·July 21, 2021

Statistical parameter estimation of multimode multiphoton subtracted thermal states of light

G. V. Avosopiants, B. I. Bantysh, K. G. Katamadze, N. A. Bogdanova,, Yu. I. Bogdanov, S. P. Kulik

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TL;DR

This paper introduces a statistical method for estimating parameters of multimode multiphoton subtracted thermal states of light, aiding in quantum optics experiments involving photon subtraction.

Contribution

It presents a novel technique for parameter estimation of multimode multiphoton subtracted thermal states, facilitating photon annihilation testing in quantum optics.

Findings

01

Enables accurate statistical estimation of thermal state parameters.

02

Supports characterization of photon subtraction processes.

03

Enhances quantum state analysis methods.

Abstract

Thermal states of light are widely used in quantum optics for various quantum phenomena testing. Particularly, they can be utilized for characterization of photon creation and photon annihilation operations. During the last decade the problem of photon subtraction from multimode quantum states become of much significance. Therefore, in this work we present a technique for statistical parameter estimation of multimode multiphoton subtracted thermal states of light, which can be used for multimode photon annihilation test.

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