Product of Eisenstein series with multiplicative power series

Abstract

We say a power series a0+a1q+a2q2+·s is multiplicative if n an/a1 for positive integers n is a multiplicative function. Given the Eisenstein series E2k(q), we consider formal multiplicative power series g(q) such that the product E2k(q)g(q) is also multiplicative. For fixed k, this requirement leads to an infinite system of polynomial equations in the coefficients of g(q). The initial coefficients can be analyzed using elimination theory. Using the theory of modular forms, we prove that each solution for the initial coefficients of g(q) leads to one and only one solution for the whole power series, which is always a quasimodular form. In this way, we determine all solutions of the system for k 20. For general k, we can regard the system of polynomial equations as living over a symbolic ring. Although this system is beyond the reach of computer algebra packages, we can use a specialization argument to prove it is generically inconsistent. This is delicate because resultants commute with specialization only when the leading coefficients do not specialize to 0. Using a Newton polygon argument, we are able to compute the relevant degrees and justify the claim that for k sufficiently large, there are no solutions. These results support the conjecture that E2k(q)g(q) can be multiplicative only for k = 2, 3, 4, 5, 7.

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