%0 Journal Article
%T A construction of $\mathfrak v$-adic modular forms
%A David Goss
%J Mathematics
%D 2013
%I arXiv
%X The classical theory of $p$-adic (elliptic) modular forms arose in the 1970's from the work of J.-P.\ Serre \cite{se1} who took $p$-adic limits of the $q$-expansions of these forms. It was soon expanded by N.\ Katz \cite{ka1} with a more functorial approach. Since then the theory has grown in a variety of directions. In the late 1970's, the theory of modular forms associated to Drinfeld modules was born in analogy with elliptic modular forms \cite{go1}, \cite{go2}. The associated expansions at $\infty$ are quite complicated and no obvious limits at finite primes ${\mathfrak v}$ were apparent. Recently, however, there has been progress in the $\mathfrak v$-adic theory, \cite{vi1}. Also recently, A.\ Petrov \cite{pe1}, building on previous work of \cite{lo1}, showed that there is an intermediate expansion at $\infty$ called the "$A$-expansion," and he constructed families of cusp forms with such expansions. It is our purpose in this note to show that Petrov's results also lead to interesting ${\mathfrak v}$-adic cusp forms \`a la Serre. Moreover the existence of these forms allows us to readily conclude a mysterious decomposition of the associated Hecke action.
%U http://arxiv.org/abs/1306.4344v1