L. B. Boldyreva

    • What does this give to physics: attributing the properties of superfluid 3He-B to physical vacuum?


      It is shown in the book that by attributing the properties of superfluid 3He-B to physical vacuum one can describe the following physical phenomena: the emission, absorption and propagation of light, the wave properties of matter, the interaction of quantum particles with electric fields, superconductivity, magnetism, the effects of ultra-low doses of biologically active substances on biological objects.

    • A Theory of Light without Special Relativity?


      The nature of light being a subject of intensive research and speculation over the centuries still remains a “dark” issue of the modern physics. It has been established that light transfers energy from the source to the receiver by discrete portions, the quanta. However, there is no unified point of view on the nature of the material carrier of the light quantum, that is, the photon. There are several types of photon used in descriptions of the experiments that demonstrate quantum optical effects. The difference in usage of the term “photon” reflects the difference in interpretation of the results of such experiments.

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