Photon as closed world

V.T. Vertushkoff

Dniepropetrovsk, 49128, Ukraine

www.vertushkov.dp.ua

Date of place: 08.02.2000       

The characteristics of the closed world having formed with the annihilation of an electron and a positron have been received.




In the past [1] it was proposed, that the physical vacuum serves as the source of energy, detaching with gravitational interaction of masses. The interacting masses compensate the arising vacuum energy ε<0 and acquire a defect of the mass . The closed world, arising from the gravitational collapse of the mass M, is a massless particle. The effect of the attraction into the electrical interaction is also accompanied by a defect of the mass of the interacting charged masses. It is supported the energy 1,02 MeV is detached by vacuum during the annihilation of the almost resting e^– and e⁺. The arising energy of vacuum ε ≈ -1,02 MeV is compensated by the whole of the mass of the rest e^– and e⁺ with the energy of the masses E=2m_ec² 1,02 MeV. More over the zone of the space consisting in e^- and e⁺ forms the closed world, i.e. the photon equal to zero mass of the rest. A defect of the mass m_f forming by a closed system (of the photon) is

m_f = m_f -2m_e= -2m_e

A photon transfers from real space to vacuum (virtual) condition at a moment of its formation. In a statical closed world [1] the masses m_e of the resting e^– and e⁺ are zero. In consequence of that they do not interact between themselves with the defect of the mass m<0 (an effect of attraction).

Let a distance r in accordance with Coulomb’s law equals a radius of the curvature R of the spherical symmetrical closed world containing the resting e^– and e⁺. Thus

where E1,02 MeV is energy of annihilation. Curvature C_G of photon’s closed space is

(the energy ε  -2m_ec² compensates masses 2m_e).

Photon’s energy, as closed world, is the energy of its gravitational field. As seen from the next example. Planck’s massless particle is the closed world containing planck’s charged mass m_p. Energy of the external gravitational field of a particle is E=|ε|=m_pc² [1,2]. On the other hand, the wave length of the particle =2l_g, where l_g is planck’s length. Thus the energy of the particle is E=hν=hc/=m_pc². The formed during the annihilation of e^– and e⁺ a photon has the external gravitational field with the energy of vacuum ε= -2m_ec².

References:

[1] V.T. Vertushkoff. Planck's units.

[2] V.T. Vertushkoff. Planck's particles Pl and – possible connection with other particles.

E-mail: vertushkov@ua.fm

 

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