Module Lattice Security (Part I): Unconditional Verification of Weber's Conjecture for k 12
Abstract
Weber's conjecture (1886) governs three aspects of lattice-based cryptography: the solvability of the Principal Ideal Problem, the freeness of modules over rings of integers, and the tightness of worst-case-to-average-case reductions in Ring-LWE (R-LWE) and Module-LWE (MLWE). Existing verifications for k 9 rely on Generalized Riemann Hypothesis (GRH). In this paper, we present the first unconditional proof for k 12. Our method combines the Fukuda-Komatsu computational sieve, inductive structure of the cyclotomic Z2-tower, and Herbrand's theorem.
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