Abstract
The modular j-function is a bijective map from $$X_0(1) \setminus \{\infty \}$$ to $$\mathbb {C}$$ . A natural question is to describe the inverse map. Gauss offered a solution to the inverse problem in terms of the arithmetic–geometric mean. This method relies on an elliptic curve model and the Gaussian hypergeometric series. Here we use the theory of polar harmonic Maass forms to solve the inverse problem by directly examining the Fourier expansion of the weight 2 polar harmonic Maass form obtained by specializing the logarithmic derivative of the denominator formula for the Monster Lie algebra.
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