Nucleosynthesis in Thin Layers: A unified theory of five interactions in a fractal, algorithmic- algebraic universe
'Nucleosynthesis in thin layers' develops a unified theory of five interactions within a fractal universe based on information-currents from an algebraic algorithmic point of view. A fractal universe is viewed as a fluctuating hyperelliptic/elliptic singularity. An alternative view to our universe as a stationary state is developed by the author as a specialist in theoretical physics. A stationary universe requires stationary mass generation rate which is suspected in photosynthesis and cosmic rays. The presented theory for the interior of an elementary charge helps to solve the Riemann hypothesis as well, the cosmological constant problem, the magnetic monopole problem and involves the Dyson-Macdonald identity.
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Nucleosynthesis in Thin Layers: A unified theory of five interactions in a fractal, algorithmic- algebraic universe
'Nucleosynthesis in thin layers' develops a unified theory of five interactions within a fractal universe based on information-currents from an algebraic algorithmic point of view. A fractal universe is viewed as a fluctuating hyperelliptic/elliptic singularity. An alternative view to our universe as a stationary state is developed by the author as a specialist in theoretical physics. A stationary universe requires stationary mass generation rate which is suspected in photosynthesis and cosmic rays. The presented theory for the interior of an elementary charge helps to solve the Riemann hypothesis as well, the cosmological constant problem, the magnetic monopole problem and involves the Dyson-Macdonald identity.
9.99
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5
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Nucleosynthesis in Thin Layers: A unified theory of five interactions in a fractal, algorithmic- algebraic universe
935
Nucleosynthesis in Thin Layers: A unified theory of five interactions in a fractal, algorithmic- algebraic universe
935
9.99
In Stock
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