Energy problem. Atom as an inexhaustible source of ecologically pure energy


  • Valentine Oleinik
  • Prokofiev V. P.


energy problem, ecologically pure energy source, energy spectrum of hydrogen atom, motion of nucleus in atom, quantum transitions, mass defect, active and passive thermal machines, superfluous energy


The fundamentally new approach to the power problem is put forward based on the excitation of electronic quantum transitions in atom responsible for the increase in mass defect of atom. The consecutive quantum theory of hydrogen atom as a system of two particles interacting with each other — electron and proton is constructed on the basis of Dirac’s model of electron. The motion of nucleus in the hydrogen atom is shown to essentially affect the physical properties of atom. The en-ergy spectrum of the atom contains two regions of bound states of electron and nucleus separated from each other by energy of the order of 2m2c2 (m2 is the mass of proton, c is the velocity of light). As a consequence, there exist such states of the atom in which the mass defect of atom reaches the value of 2m1 (m1 is the mass of electron). The existence of quantum states of atom with abnormally high mass defect and the ability of atom to make transitions from states with smaller value of mass defect to states with greater value open the prospect of creation of active thermal machines (TM) producing superfluous energy, i.e. transforming the energy of environment to active form. From the conceptual point of view, the idea of production of superfluous energy in active TM does not differ from the physical idea which is carried out in the thoroughly studied reactions of thermonuclear synthesis. In both cases, the question is the organization and maintenance in a system of interacting particles of physical processes in which the state of system changes in such a manner that the mass defect of sys-tem eventually increases in comparison with mass defect in initial state. Distinction between active TM and thermonuclear reactor consists only in the fact that physical processes of various types are used in them: in the first case — electronic processes in atoms, and in the second one — the processes going on at collision of nucleons and nuclei. The fact that both phenomena — the produc-tion of superfluous energy in active TM and the energy liberation in reaction of thermonuclear synthe-sis — are of the same physical nature and are described by the same parameter — mass defect means that production of superfluous energy is as real as thermonuclear synthesis. As the energy liberation in active TM occurs due to electronic processes in atoms instead of synthesis or splitting of atomic nu-clei, active TM will be ecologically pure energy sources. As fuel for active thermal machine, any substance can serve, the atoms of which can be in states with various values of mass defect. The re-sults of the present work do not contradict the laws of thermodynamics. The principles of action of TM described in textbooks on thermodynamics refer only to such TM which are isolated from envi-ronment (such TM can be naturally referred to as passive). The idea that it is impossible to trans-form energy of environment to active form, deeply rooted in consciousness, is the deepest and tragic delusion of the last century resulted in the orientation of economy of the planet exclusively towards passive TM. Consequences are known: research on the transformation of environment energy to active form (N.Tesla, K.E.Tsiolkovsky, P.K.Oshchepkov, etc.) have been blocked and declared as pseudo science, and the mankind appeared on the verge of ecological catastrophe by the end of the century. The real way toward resolving power problem, as is evident from the results of the paper, passes through the research directed towards the creation of active thermal machines — qualitatively new ecologically pure energy sources.


Дирак П. А. М. Принципы квантовой механики. — М., Наука, 1979.

Schrödinger E. Sitzungsber. Preuss. Akad. Wiss. Phys. Math. Kl. 24, 418, 1930.

Tesla N. Experiments with Alternative Currents of Very High Frequency and their Application to Methods of Artificial Illumination. Delivered before the American Institute of Electrical Engineers, Columbia College, N.Y., May 20, 1891.

Конюшая Ю. П. Естественный круговорот энергии в природе и проблемы энергетической инверсии. Краткий исторический обзор. — Общественный институт энергетической инверсии «ЭНИН», М., 1977.

Циолковский К. Э. Второе начало термодинамики.// Журнал русской физической мысли. №1. С. 22-39. М. 1991 (перепечатка издания: Калуга. Типография С.А. Семенова. 1914).

Гвай И. И. О малоизвестной гипотезе Циолковского. Под ред. П.К. Ощепкова. — Калуга: Кн. изд., 1959. — 248 с.

Гвай И. И. К. Э. Циолковский о круговороте энергии. — М.: Изд-во АН СССР, 1957. — 74 с.

Ощепков П. К. Жизнь и мечта. — М.: Московский рабочий, 1977.- с. 79.

Геллер С. В. Вихревые нагреватели жидкости. Новая энергетика, №3(22), 2005.

Ранк Г. Патент США, US 1952281, 1934.

Григгс Дж. Л. Патент США, US 5188090, 1993.

Потапов Ю. С. Теплогенератор и устройство для нагрева жидкости. Патент РФ RU 2045715, 1995.

Сапогин Л. Г., Потапов Ю. С. и др. Устройство для нагрева жидкости. Патент РФ, RU 2162571, 2000.

Oleinik V. P. The Problem of Electron and Superluminal Signals. (Contemporary Fundamental Physics) (Nova Science Publishers, Inc., Huntington, New York, 2001).

Oleinik V. P. Superluminal Transfer of Information in Electrodynamics. SPIE Material Science and Material Properties for Infrared Optoelectronics, 3890, p.321-328, 1998 ( /).

Oleinik V. P. Faster-than-Light Transfer of a Signal in Electrodуnamics. Instantaneous action-at-a-distance in modern physics (Nova Science Publishers, Inc., New York, 1999), p.261-281.

Олейник В. П. Проблема сверхсветовой коммуникации: сверхсветовые сигналы в электромагнитном поле и их физический носитель. // Физика сознания и жизни, космология и астрофизика. — 2003. — №1. — С. 21-42.

Олейник В. П. К электронным технологиям XXI века: на пороге революции в системах коммуникации. // Сборник докладов Международной конференции «С инновациями в ХXI век», Миллениум 2002, Одесса, 13 апреля 2002, — С.268-273 (2002).

Oleinik V. P., Borimsky Yu. C., Arepjev Yu. D. On the Possibility of the New Communication Method and Controlling of the Time Course. New Energy Technologies, #9, p.6-13, 2002.

Oleinik V. P. Quantum Theory of Self-Organizing Electrically Charged Particles. Soliton Model of Electron. Proceedings of the NATO-ASI «Electron Theory and Quantum Electrodynamics. 100 Years Later.» (Plenum Press, N.-Y., London, Washington, D.C., Boston, 1997), p.261-278.

Oleinik V. P. Quantum Equation for the Self-Organizing Electron. Photon and Poincare Group (Nova Science Publishers, New York, Inc., 1999), p.188-200.

Ахиезер А. И., Берестецкий В. Б. Квантовая электродинамика. — М., Наука, 1969.

Ландау Л. Д., Лифшиц Е. М. Квантовая механика. Нерелятивистская теория. — М., Наука, 1989.

Бейтмен Г., Эрдейи А. Высшие трансцендентные функции. Т.1. — М., Наука, 1965.

Breit G. Phys. Rev. 34, 553, 1929; 36, 383, 1930; 39, 616, 1932.

Бете Г. Квантовая механика простейших систем. — М., ОНТИ, 1935.

Олейник В. П. Гриновская функция и квазиэнергетический спектр электрона в поле электромагнитной волны и однородном электромагнитном поле. УФЖ, 13, 1205, 1968; УФЖ, 14, 2076, 1969.

Олейник В. П. Образование электронно-позитронной пары фотоном в поле электромагнитной волны и однородном электромагнитном поле. ЖЭТФ, 61, 27-44, 1971.

Олейник В. П., Абакаров Д. И., Белоусов И. В. Коллективные возбуждения электронов и дырок в сильном электромагнитном поле и поглощение света в условиях параметрического резонанса. ЖЭТФ, 75, 312-324, 1978.

Belousov I. V., Oleinik V. P. Restructuring of the energy spectrum and light absorption in a semiconductor in an intense electromagnetic field. J.Phys.C: Solid State Phys., 12, 655-665, 1979.

Олейник В. П., Белоусов И. В. Проблемы квантовой электродинамики вакуума, диспергирующих сред и сильных полей. — Кишинев, Штиинца, 1983.

Олейник В. П. О вакуумных эффектах в квантовой электродинамике интенсивного поля. Когерентные состояния и фазовые переходы в системе экситонов большой плотности. — Кишинев, Штиинца, 1985, 164-172.

Олейник В. П. Вакуумный фон взаимодействующих полей и квантовые процессы. Квантовые процессы в интенсивных полях. Кишинев, Штиинца, 1987, 111-122.

Oleinik V. P., Arepjev Ju. D. Quantum Processes: Probability Fluxes, Transition Probabilities in Unit Time and Vacuum Vibrations. J. Phys. A: Math. Gen. 22, 3871-3897, 1989.

Боголюбов Н. Н., Ширков Д. В. Введение в теорию квантованных полей. — М., Наука, 1976.

Косинов Н. В. Проблема вакуума в контексте нерешенных проблем физики. // Физический вакуум и природа, №3, 48-71, 2000.

How to Cite

Oleinik, V., & P., P. V. (2007). Energy problem. Atom as an inexhaustible source of ecologically pure energy. Physics of Consciousness and Life, Cosmology and Astrophysics, 7(2), 28–59. Retrieved from




Most read articles by the same author(s)

1 2 3 > >>