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Symplectic structure of quantum phase and stochastic simulation of qubits

By Rybakov Yu.P. and Kamalov T.F.

Abstract

Starting with the projective interpretation of the Hilbert space special stochastic representation of the wave function in Quantum Mechanics (QM), based on soliton realization of extended particles, is considered with the aim to model quantum states via classical computer. Entangled solitons construction having been earlier introduced in the nonlinear spinor field model for the calculation of the Einstein-Podolsky-Rosen (EPR) spin correlation for the spin-1/2 particles in the singlet state, the other example is now studied. The latter concerns the entangled envelope solitons in Kerr dielectric with cubic nonlinearity, where we use two-solitons configurations for modeling the entangled states of photons. Finally, the concept of stochastic qubits is used for quantum computing modeling. © 2009 Pleiades Publishing, Ltd

Publisher: 'Pleiades Publishing Ltd'
Year: 2020
DOI identifier: 10.1134/S1547477109070085
OAI identifier: oai:rour.neicon.ru:rour/253273
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