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Theoretical approaches to teleportation processes

Keywords:

K.A. Amelicheva – Ph. D. (Eng.), Associate Professor, Kaluga branch of the Bauman MSTU
E-mail: kf_mgtu_fiz@mail.ru
A.K. Gorbunov – Dr. Sc. (Phys.-Math.), Professor, Kaluga branch of the Bauman MSTU
E-mail: fn2kf@list.ru
L.V. Lysenko – Dr. Sc. (Eng.), Professor, Kaluga branch of the Bauman MSTU
E-mail: kf_mgtu_fiz@mail.ru
V.K. Shatalov – Dr. Sc. (Eng.), Professor, Kaluga branch of the Bauman MSTU
E-mail: vkshatalov@yandex.ru
A.L. Lysenko – Ph. D. (Eng.), Associate Professor, Kaluga branch of the Bauman MSTU
E-mail: kf_mgtu_fiz@mail.ru


On the basis of energy technology processes, theoretical aspects of teleportation are considered, which are based on the unity of transport and chronometric (kinetic) transport elements of matter, energy and angular momentum. Dimensionless complexes and equations are obtained, both theoretically and as a result of scientific research when introducing advanced technologies. It is shown that: the transfer is formally determined by the phenomenological dimensionless equation of energy-technological processes, which generalizes the physical flows; teleportation of information transfer by means of the moment of an impulse starts algorithms of chro-nometric (kinetic) processes; one of the main parameters of teleportation phenomena is the concentration head of substances; the formal area of the teleportation phenomena follows from the boundary reverse processes when the parameter T varies from 0 to 1; the chronometric processes during teleportation depend on the ratio of multidirectional time and entropy parameters; transport flows are closed, both transport conductors of matter and energy, and teleportation channels of momentum transfer; the interrelation of time factors with other parameters of teleportation processes follows from the dimensionless equation of energy-technological evolution.

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