Computer Simulation for Quantum Tomography

Abstract

A numerical method for modeling the reconstruction of quantum states of photons using homodyne tomography is presented. The difference between discretized and quantized sine functions is considered as a model of reconstruction of the quantum state of the photon of the harmonic of light using homodyne tomography. The obtained graphical images numerically confirmed the similarity with the known experimentally obtained squeezed quantum amplitudes, phase and vacuum states, as well as vacuum and coherent (shifted) quantum states of light. The parameters of numerical modeling of quantum states are determined and evaluated. Their graphic images are presented. Further use of the obtained results in quantum tomography, computer modeling of quantum reconstruction of a local photon and tomography of the quantum state of a photon using homodyne tomography is discussed. A new direction of development of space-time computer modeling of the quantum state with the help of homodyne network structures of information technologies and artificial intelligence in the spheres of human life is established.KeywordsSimulatingLightHomodyneStateTomography