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From Trial Division to Smooth Prime Indicators

From Trial Division to Smooth Prime Indicators

来源:Arxiv_logoArxiv
英文摘要

This work introduces a flexible framework for constructing smooth (C-infinity) analogues of classical arithmetic functions, based on the smoothing of a trigonometric representation of trial division. A foundational function P: R -> R of class C^1 is first presented, whose zeros for x > 2 correspond precisely to the odd primes. The limitations of this function motivate its generalization into a versatile framework. This framework is then applied to construct two novel functions: a smooth analogue of the divisor-counting function, P_tau, and a smooth analogue of the sum-of-divisors function, P_sigma. Both functions are proven to be of class C-infinity. It is shown that these new constructions possess a complete prime-zero property for all integers x >= 2. The robustness of this property for real numbers is analyzed for each function. It is demonstrated that P_tau provides a robust prime indicator for all real numbers, while the properties of P_sigma in this regard lead to an open question concerning the existence of non-integer zeros. The construction methodology, properties, and potential of these functions are discussed in detail.

Sebastian Fuchs

数学

Sebastian Fuchs.From Trial Division to Smooth Prime Indicators[EB/OL].(2025-06-26)[2025-07-16].https://arxiv.org/abs/2506.18933.点此复制

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