Abstract
The absolute zeta function for a scheme X of finite type over Z satisfying a certain condition is defined as the limit as p→1 of the zeta function of X⊗Fp. In 2016, after calculating absolute zeta functions for a few specific schemes, Kurokawa suggested that an absolute zeta function for a general scheme of finite type over Z should have an infinite product structure which he called the absolute Euler product. In this article, formulating his suggestion using a torsion free Noetherian F1-scheme defined by Connes and Consani, we give a proof of his suggestion. Moreover, we show that each factor of the absolute Euler product is derived from the counting function of the F1-scheme.
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