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Schrdinger equations and diffusion theory

Schrödinger Equations and Diffusion Theory addresses the question ""What is the Schrödinger equation?"" in terms of diffusion processes, and shows that the Schrödinger equation and diffusion equations in duality are equivalent. In turn, Schrödinger's conjecture of 1931 is solved. The theory of diffusion processes for the Schrödinger equation tells us that we must go further into the theory of systems of (infinitely) many interacting quantum (diffusion) particles. The method of relative entropy and the theory of transformations enable us to construct severely singular diffusion processes which a.

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  • "Schrödinger Equations and Diffusion Theory addresses the question "What is the Schrödinger equation?" in terms of diffusion processes, and shows that the Schrödinger equation and diffusion equations in duality are equivalent. In turn, Schrödinger's conjecture of 1931 is solved. The theory of diffusion processes for the Schrödinger equation tell us that we must go further into the theory of systems of (infinitely) many interacting quantum (diffusion) particles. The method of relative entropy and the theory of transformations enable us to construct severely singular diffusion processes which appear to be equivalent to Schrödinger equations. The theory of large deviations and the propagation of chaos of interacting diffusion particles reveal the statistical mechanical nature of the Schrödinger equation, namely, quantum mechanics. The text is practically self-contained and requires only an elementary knowledge of probability theory at the graduate level."
  • "Schrödinger Equations and Diffusion Theory addresses the question ""What is the Schrödinger equation?"" in terms of diffusion processes, and shows that the Schrödinger equation and diffusion equations in duality are equivalent. In turn, Schrödinger's conjecture of 1931 is solved. The theory of diffusion processes for the Schrödinger equation tells us that we must go further into the theory of systems of (infinitely) many interacting quantum (diffusion) particles. The method of relative entropy and the theory of transformations enable us to construct severely singular diffusion processes which a."@en

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  • "Electronic books"@en
  • "Electronic books"

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  • "Schrödinger Equations and Diffusion Theory"
  • "Schrodinger equations and diffusion theory"
  • "Schrdinger equations and diffusion theory"@en
  • "Schrodinger Equations and Diffusion Theory"
  • "Schrödinger equations and diffusion theory"
  • "Schrödinger equations and diffusion theory"@en

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