DES APPLICATIONS GÉNÉRATRICES DES NOMBRES PREMIERS ET CINQ PREUVES DE L’HYPOTHÈSE DE RIEMANN
Résumé
I will prove that there exists one application $\psi(\psi^-,\psi^+)$ on $\mathbb{R}^2$ such that $\mathcal{P} = \{\pm2,\pm3 \} \cup 6\times\mathcal{F^-}+1 \cup6\times\mathcal{F^+}-1$ where : $ \mathcal {P} $ is the set of relatively prime numbers, $\mathcal{F^-} = \mathbb{Z}\cap( \psi^+ ( \mathbb{Z}^*\times \mathbb{Q}\backslash\mathbb{Z})\backslash \psi^+(\mathbb{Z}^*\times \mathbb{Z}^*))$ and $\mathcal{F^+} =\mathbb{Z}\cap( \psi^- ( \mathbb{Z}^*\times \mathbb{Q}\backslash\mathbb{Z})\backslash \psi^-(\mathbb{Z}^*\times \mathbb{Z}^*) )$. And I will give an algorithm that allows both to generate prime numbers and
confirm that $ \mathcal {P} $ is indeed determined by the mapping $ \psi (\psi ^ - , \psi ^ +) $ that I will apply in some proofs of the Riemann hypothesis .
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