ВЕСТНИК ПЕРМСКОГО УНИВЕРСИТЕТА. ФИЛОСОФИЯ. ПСИХОЛОГИЯ. СОЦИОЛОГИЯ

VESTNIK PERMSKOGO UNIVERSITETA. SERIYA FILOSOFIA PSIKHOLOGIYA SOTSIOLOGIYA

DOI: 10.17072/2078-7898/2017-3-335-340

The hidden meaning of Heisenberg inequalities
and frequency interpretation of wave function

Godarev Maxim Grigor’evich
(pseudonym — Godarev-Lozovsky M.G.)
Co-Chairman of Saint-Petersburg branch
of the Russian Philosophical Society

e-mail: godarev-lozovsky@yandex.ru
ORCID: 0000-0002-3511-0854

The article suggests a system of scientific-philosophical provisions, in which the initial principle is the concretized principle of distinction: every material object is equal to itself in space and identical in time. It has been shown that the suggested principle implies the interpretation of Heisenberg’s inequality in favor of elemental (hereinafterindivisible) atemporal displacement of a quantum micro object. The hidden nondeterministic meaning of Heisenberg inequalities is, in our view, the idea that there is no direct connection between the dynamics of coordinates and momentum of a particle. Elementary change of quantum particle momentum «lags» for elementary change of its coordinates. It is stated that the identity of a microparticle to itself is possible only in case of its infinitely short visit to the probable point of its detection in space. In this case the wave function of a particle is treated as a relative frequency of visits of the micro-object to its inherent coordinates in real flat space. The author of the article establishes a point that the wave functions of individual particles may be identical and the particles themselves — indistinguishable. In a conceptual context the article gives the most general philosophical analysis of physical relativism, and its relation with the proposed approach and the conclusion is made of the groundlessness of claims about the fundamental nature of the theory of relativity.

Keywords: infinity, atemporallity, lack of trajectory, real space, movement, quantum mechanics.

References

  1. Kolychev P.M. Relyativistskaya ontologiya i relyativistskaya kvantovaya fizika [Relativistic ontology and relativistic quantum physics]. Filosofiya nauki: materialy nauchnoy konferencii[Philosophy of physics: materials of the scientific conference].Moscow,URSS Publ., 2010, 387 p. (In Russian).
  2. Godarev-Lozovskiy M.G. Teotiya prostranstva i dvizheniya [Theory of space and motion]. Fundamental’nye problemy estestvoznaniya i tekhniki. Seriya: Problemy issledovaniya Vselennoy. Trudy Kongressa – 2016 [Fundamental problems of science and technology. Series: Problems of the study of Universe. Congress works – 2016]. St. Petersburg, 2016, 298 p. (In Russian).
  3. Landau L.D., Lifshits E.M. Kvantovaya mekhanika. Nerelyativistskaya teoriya [Quantum mechanics. Nonrelativistic theory]. Moscow, 1963, 702 p.(In Russian).
  4. Frenkel’ Ya.I. Ponyatie dvizheniya v relyativistskoy kvantovoy teorii [The concept of motion in relativistic quantum theory]. Doklady AN SSSR [Reports of the Academy of Sciences of USSR]. 1949, vol. LX, no. 4, pp. 507–509. (In Russian).
  5. Shul’ga V.P. Model’ kvanta s processom pole-massovykh prevrashcheniy [The quantum model with the process of field-mass transformations]. Moscow, 1998, 37 p. (In Russian).
  6. Petrov Yu.I. Paradoksy fundamental’nykh predstavleniy fiziki [Paradoxes of fundamental representations of physics]. Moscow, URSS Publ., 2014, 331 p. (In Russian).
  7. Faizal М., Khalil M.M., Das S. Time crystals from minimum time uncertainty. Тhe European Physical Journal. 2016, Available at: https://link.springer.com/article/10.1140/epjc/s10052-016-3884-4 (accessed 22.12.2016). DOI: 10.1140/epjc/s10052-016-3884-4. (In English).
  8. Yanchilin V.L. Neopredelennost’, gravitatsiya, kosmos [Uncertainty, gravity, space]. Moscow, URSS Publ., 2012, 247 p. (In Russian).
  9. Klyushin Ya.G. Elektrichestvo, gravitatsiya, teplota — drugoy vzglyad [Electricity, gravity, heat — another view]. St. Petersburg, 2015, 234 p.(In Russian).
  10. Seval’nikov A.Yu. Interpretatsii kvantovoy mekhaniki. V poiskah novoy ontologii [Interpretations of quantum mechanics. In search of a new ontology]. Moscow, URSS Publ., 2009, 189 p. (In Russian).
  11. Walles B.Jh. Problema prostranstva i vremeni v sovremennoy fizike [The problem of space and time in modern physics]. Problema prostranstva i vremeni v sovremennom estestvoznanii [The problems of space and time in modern natural science]. St. Petersburg, 1991, 447 p. (In Russian).
  12. Problema realizma v sovremennoy kvantovoy mekhanike. Materialy diskussii [The problem of realism in modern quantum mechanics. Discussion materials]. Filosofiya nauki i tekhniki [Philosophy of Science and Technology]. 2016, vol. 21, no. 2, pp. 34–64. DOI: 10.21146/2413-9084-2016-21-2-34-64. (In Russian).
  13. Bernshteyn V.M. Massa i energiya. Razvitie elektrodinamiki i teorii gravitatsii Vebera. Sravnenie s teoriey otnositel’nosti i s efirnoy teoriey Lorentsa. Kvantovaya mekhanika bez printsypov «dualizma volny i chastitsy» i «neopredelennosti» [Mass and energy. The development of electrodynamics and Weber’s theory of gravitation. Comparison with the theory of relativity and with Lorentz’s etheric theory. Quantum mechanics without the principles of «wave and particle dualism» and «uncertainty»]. Moscow, 2010, 250 p. (In Russian).
  14. Keldysh L.V. Dinamicheskoe tunnelirovanie [Dynamic Tunneling]. Vestnik RAN [Herald of the RAS]. 2016, vol. 86, no. 12, pp. 1059–1072. (In Russian).
  15. Tarasov L.V. Osnovy kvantovoy mekhaniki [Basics of quantum mechanics]. Moscow, URSS Publ., 2016, 273 p. (In Russian).
  16. Basov N.G., Ambartsumyan R.V., Zuev V.S., Kryukov P.G., Letokhov V.S. Skorost’ rasprostraneniya moshchnogo impulsa sveta v inversno zaselyennoy srede [The propagation velocity of an intense pulse of light in inverse populated environment]. Doklady AN SSSR [Reports of the Academy of Sciences of USSR]. 1965, vol. 165(1). (In Russian).

The date of the manuscript receipt 24.12.2016

Please cite this article in English as:

Godarev-Lozovsky M.G.The hidden meaning of Heisenberg inequalities and frequency interpretation of wave function // Perm University Herald. Series «Philosophy. Psychology. Sociology». 2017. Iss. 3. P. 335–340. DOI: 10.17072/2078-7898/2017-3-335-340