All truth passes through three stages. First, it is ridiculed. Second, it is violently opposed. Third, it is accepted as being self-evident: Arthur Schopenhauer -- In questions of science the authority of a thousand is not worth the humble reasoning of a single individual: Galileo Galilei -- Science is a wonderful thing if one does not have to earn one's living at it: Albert Einstein -- When you have eliminated the impossible, what ever remains, however improbable must be the truth: Sir Arthur Conan Doyle -- We all agree that your theory is crazy, but is it crazy enough? Niels Bohr -- Whenever a true theory appears, it will be its own evidence. Its test is that it will explain all phenomena: Ralph Waldo Emerson -- Since the mathematicians invaded Relativity, I do not understand it myself anymore: Albert Einstein -- I would say that the aether is a medium invented by man for the purpose of propagating his misconceptions from one place to another: W.F.G. Swann: -- Most of the fundamental ideas of science are essentially simple, and may, as a rule, be expressed in a language comprehensible to everyone: Albert Einstein -- Physics is mathematical not because we know so much about the physical world, but because we know so little: Bertrand Russell -- If I could explain it to the average person, I would not have been worth the Nobel Prize: R. P. Feynman -- I do not feel obliged to believe that the same God who has endowed us with sense, reason, and intellect has intended us to forgo their use: Galileo Galilei -- How dare we speak of the laws of chance? Is not chance the antithesis of all law?: Bertrand Russell -- Only two things are infinite, the universe and human stupidity, and I´m not sure about the former: Albert Einstein -- The glory of mathematics is that you don't have to say what you are talking about: Richard Feynman -- Anything is possible if you don´t know what you are talking about: Author Unknown -- In life, everything is relative - except Einstein´s theory: Leonid S. Sukhorukov -- Don´\'t worry about people stealing your ideas. If your ideas are any good, you´ll have to ram them down people´s throats: Howard Aiken --A day will come undoubtedly when the ether will be discarded as useless: H. Poincaré -- First they tell you you´re wrong and they can prove it; then they tell you you´re right but it isn´t important; then they tell you it´s important but they knew it all along: Charles Kettering -- It is not once nor twice but times without number that the same ideas make their appearance in the world: Aristotle -- The opposite of a true statement is a false statement. The opposite of a profound truth may well be another profound truth: Niels Bohr -- A new scientific truth does not triumph by convincing its opponents and making them see the light, but rather because its opponents eventually die, and a new generation grows up that is familiar with it: Max Planck -- Euclid taught me that without assumptions there is no proof. Therefore, in any argument, examine the assumptions: Eric Temple Bell -- Half this game is ninety percent mental: Yogi Berra

Tenseur Energie Impulsion Quantique Relativiste : Approximation Linéaire de l’Equation d’Einstein et Equivalence avec l’Equation de Klein-Gordon


Baudrimont, Roman


Research Papers


Relativity Theory



Date Published:

January 7, 2019




Stress Energy Tensor, Quantum Mechanics, Von Neumann Entropy, Quantum Field Theory


[!] Attention Je publie ce document en présentant que la partie 1 et 2. Ce document n’est donc pas complet et est toujours en cours de réalisation. Quand le document complet sera publié, il s’intitulera « Tenseur énergie impulsion quantique relativiste et entropie de Von Neumann ». Les parties 1 et 2 présentés ne sont pas encore totalement complète. Je m’excuse pour les lecteurs qui auront du mal à suivre mes calculs ainsi que ma logique. Je m’excuse aussi pour les fautes d’orthographe et de grammaire.[!] Notre objectif dans ce papier (partiel) est d’étudier le lien qui existe entre l’approximation linéaire des équations d’Einstein (ou approximation des champs faibles) à l’équation de Klein-Gordon. La partie 1 présente ce qu’est l’équation de Klein-Gordon ainsi que l’intégration de la théorie de l’information quantique en son sein. La partie 2 traite du tenseur énergie impulsion quantique, dans lequel je détail l’approximation des champs faibles de l’équation d’Einstein, puis dans lequel je développe le tenseur énergie impulsion quantique à partir de l’équivalence entre l’équation d’einstein à l’approximation des champs faibles et l’équation de Schrödinger relativiste décrit par l’équation de Klein-Gordon.

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