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Sums of class numbers and mixed mock modular forms

Published online by Cambridge University Press:  04 June 2018

KATHRIN BRINGMANN  and
BEN KANE
KATHRIN BRINGMANN
Affiliation:
Mathematical Institute, University of Cologne, Weyertal 86-90, 50931 Cologne, Germany, e-mail: [email protected]
BEN KANE
Affiliation:
Department of Mathematics, University of Hong Kong, Pokfulam, Hong Kong, e-mail: [email protected]
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Abstract

In this paper, we consider sums of class numbers of the type ∑ma (mod p) H (4nm2), where p is an odd prime, n ∈ ℕ, and a ∈ ℤ. By showing that these are coefficients of mixed mock modular forms, we obtain explicit formulas. Using these formulas for p = 5 and 7, we then prove a conjecture of Brown et al. in the case that n = ℓ is prime.

Type
Research Article
Information
Mathematical Proceedings of the Cambridge Philosophical Society , Volume 167 , Issue 2 , September 2019 , pp. 321 - 333
Copyright
Copyright © Cambridge Philosophical Society 2018 

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Footnotes

The research of the first author was supported by the Alfried Krupp Prize for Young University Teachers of the Krupp Foundation.

This research was completed while the second author was a postdoc at the University of Cologne.

References

REFERENCES

[1] Bringmann, K. and Folsom, A. Almost harmonic Maass forms and Kac Wakimoto characters. J. Reine Angew. Math. 694 (2014), 179202.Google Scholar
[2] Bringmann, K. and Murthy, S. On the positivity of black hole degeneracies in string theory. Commun. Number Theory Phys. 7 (2013), 1556.Google Scholar
[3] Bringmann, K. and Ono, K. The f(q) mock theta function conjecture and partition ranks. Invent. Math. 165 (2006), 243266.Google Scholar
[4] Bringmann, K. and Ono, K. Some characters of Kac and Wakimoto and nonholomorphic modular functions. Math. Ann. 345 (2009), 547558.Google Scholar
[5] Bringmann, K. and Ono, K. Dyson's rank and Maass forms. Ann. of Math. 171 (2010), 419449.Google Scholar
[6] Brown, B., Calkin, N., Flowers, T., James, K., Smith, E. and Stout, A. Elliptic curves, modular forms, and sums of Hurwitz class numbers. J. Number Theory 128 (2008), 18471863.Google Scholar
[7] Dabholkar, A., Murthy, S. and Zagier, D., Quantum black holes, wall crossing and mock modular forms, Cambridge Monographs in Mathematical Physics, to appear.Google Scholar
[8] Eichler, M. On the class of imaginary quadratic fields and sums of divisors of natural numbers. J. Indian Math. Soc. 19 (1956), 153180.Google Scholar
[9] Hirzebruch, F. and Zagier, D. Intersection numbers of curves on Hilbert modular surfaces and modular forms of Nebentypus. Invent. Math. 36 (1976), 57113.Google Scholar
[10] Kohnen, W. Modular forms of half-integral weight on Γ0(4). Math. Ann. 248 (1980), 249266.Google Scholar
[11] Li, W. Newforms and functional equations. Math. Ann. 212 (1975), 285315.Google Scholar
[12] Ono, K. The web of modularity: arithmetic of the coefficients of modular forms and q-series (CBMS Regional Conference Series in Mathematics, 102. Published for the Conference Board of the Mathematical Sciences, Washington, DC; by the American Mathematical Society, Providence, RI, 2004).Google Scholar
[13] Parry, W. A negative result on the representation of modular forms by theta series. J. Reine Angew. Math. 310 (1979), 151170.Google Scholar
[14] Semikhatov, A., Taormina, A. and Tipunin, I. Higher-level Appell functions, modular transformations and characters. Comm. Math. Phys. 255 (2005), 469512.Google Scholar
[15] Shimura, G. On modular forms of half integral weight. Ann. of Math. 97 (1973), 440481.Google Scholar
[16] Zagier, D. Introduction to modular forms in From Number Theory to Physics (Springer–Verlag, Heidelberg, 1992), 238–291.Google Scholar
[17] Zwegers, S. Multivariable Appell functions, preprint.Google Scholar
[18] Zwegers, S. Mock theta functions. Ph.D. thesis, Utrecht University (2002).Google Scholar