Downloads provided by UsageCountsProof of The Riemann Hypothesis Without Using The Zeta
Ohad Manor;
Proof of The Riemann Hypothesis Without Using The Zeta
The following paper is a prove that primes numbers are forming a non-abelian group of the form 2(N+1/2) with 1/2 as generator. The paper is divided to three parts. The first revolving mainly on deriving fermions and their anti-commution relation from Manifolds. The second part is using the anti-commution of fermions on the problem of primes. The third and final part revolves around using functors to reach the desired end result and finalize the proof. If the following proof to be accepted it is an elegant and beautiful result which will lead to important advancements in our understanding. The methodology contains functors, EL framework (Cal of variations), group theory and Quantum field theory. No Non Trivial zeros were calculated by hand, which makes the proof very elegant.
topology, graph theory, Quantum physics, quantum cosmology, nubmer theory, quantum entanglement, dark matter, quantum computing, high energy physics, algebraic topology, QFT, theoretical computer science, riemann proof, proof, FOS: Mathematics, string theory, Riemann Conjecture, riemann hypothesis, quantum optics, particle physics, pure mathematics, dark energy, Millennium problems, theoretical physics, prime numbers, Quantum cosmology, quantum theory, zeta function, gravity, Quantum field theory, condensed matter physics, quantum physics, quantum gravity, Mathematics
topology, graph theory, Quantum physics, quantum cosmology, nubmer theory, quantum entanglement, dark matter, quantum computing, high energy physics, algebraic topology, QFT, theoretical computer science, riemann proof, proof, FOS: Mathematics, string theory, Riemann Conjecture, riemann hypothesis, quantum optics, particle physics, pure mathematics, dark energy, Millennium problems, theoretical physics, prime numbers, Quantum cosmology, quantum theory, zeta function, gravity, Quantum field theory, condensed matter physics, quantum physics, quantum gravity, Mathematics
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This indicator reflects the "current" impact/attention (the "hype") of an article in the research community at large, based on the underlying citation network.
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This indicator reflects the overall/total impact of an article in the research community at large, based on the underlying citation network (diachronically).
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This indicator reflects the initial momentum of an article directly after its publication, based on the underlying citation network.
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