Physical Process Defining the Properties of Cavity Structures with Taking into Account the Properties of Physical Vacuum

Abstract

The aim of this article is to prove that energy properties of cavity structures (impact on technical devices, biological systems, other cavity structures) is carried out by spin supercurrent.

The spin supercurrent arises between spins of virtual photons (spin vortices) created by quantum objects constituting a cavity structure. The concept of virtual photons was developed by a Nobel Prize Winner R. Feynman in 1949; one of the properties of virtual photons is their ability to interact with each other by spin supercurrent. A significant feature of a cavity structure is the conservation of properties of a cavity structure for several hours or even days after removing it from any area of the physical vacuum. This phenomenon is explained by the properties of physical vacuum. According to a study by Planck, Einstein and Stern, a physical vacuum free from magnetic and electric fields (without regard to gravitational energy) should be defined not as an empty space but as a state of a field that consists of some oscillators with “zero-point energy” called in this work as quantum oscillators. The quantum oscillators have precessing spins and spin supercurrent may arise between their spins, and by such way to determine “residual effect” of cavity structures.