Congruences involving the U operator for weakly holomorphic modular forms

Abstract

Let λ be an integer, and f(z)=Σn-∞ a(n)qn be a weakly holomorphic modular form of weight λ+ 12 on 0(4) with integral coefficients. Let ≥ 5 be a prime. Assume that the constant term a(0) is not zero modulo . Further, assume that, for some positive integer m, the Fourier expansion of (f|Um)(z) = Σn=0∞ b(n)qn has the form \[ (f|Um)(z) b(0) + Σi=1tΣn=1∞ b(di n2) qdi n2 , \] where d1, …, dt are square-free positive integers, and the operator U on formal power series is defined by \[ ( Σn=0∞ a(n)qn ) | U = Σn=0∞ a( n)qn. \] Then, λ 0 -12. Moreover, if f denotes the coefficient-wise reduction of f modulo , then we have \[ \ m → ∞ f|U2m, m → ∞ f|U2m+1 \ = \ a(0)θ(z), a(0)θ(z) ∈ F[[q]] \, \] where θ(z) is the Jacobi theta function defined by θ(z) = Σn∈Z qn2. By using this result, we obtain the distribution of the Fourier coefficients of weakly holomorphic modular forms in congruence classes. This applies to the congruence properties for traces of singular moduli.