Abstract
A normalized modular eigenform f is said to be ordinary at a prime p if P does not divide the p-th Fourier coefficient of f. We take f to be a modular form of level 1 and weight k ∈ {12, 16, 18, 20, 22, 26} and search for primes where f is not ordinary. To do this, we need an efficient way to compute the reduction modulo p of the p-th Fourier coefficient. A convenient formula was known for k = 12; trying to understand it leads to generalized Rankin–Cohen brackets and thence to formulas that we can useto look for non-ordinary primes. We do this for p ≤ 1 000 000.
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