DIFFERENTIAL EQUATIONS INVOLVING CUBIC THETA FUNCTIONS AND EISENSTEIN SERIES

[1] M.J. Ablowitz, S. Chakravarty and H. Hahn: Integrable systems and modular forms of level 2, J. Phys. A 39 (2006), 15341–15353.

[2] B. Berndt: Ramanujan’s notebooks. Part III, Springer-Verlag, New York, 1991.

[3] B.C. Berndt: Number theory in the spirit of Ramanujan, Student Mathematical Library 34, Amer. Math. Soc., Providence, RI, 2006.

[4] J.M. Borwein, P.B. Borwein and F.G. Garvan: Some cubic modular identities of Ramanujan, Trans. Amer. Math. Soc. 343 (1994), 35–47.

[5] F.J. Bureau: Sur des syste`mes diffe´rentiels non line´aires du troisie`me ordre et lese´quations diffe´rentielles non line´aires associe´es, Acad. Roy. Belg. Bull. Cl. Sci. (5) 73, (1987), 335–353.

[6] S. Cooper: Ramanujan’s theta functions, Springer, Cham, 2017.

[7] L.E. Dickson: Modern Elementary Theory of Numbers, University of Chicago Press, Chicago, 1939.

[8] H.M. Farkas: Theta functions in complex analysis and number theory; in Surveys in number theory, Dev. Math, 17 (2008), 57–87.

[9] H.M. Farkas and I. Kra: Theta constants, Riemann surfaces and the modular group, Graduate Studies in Mathematics 37, American Mathematical Society, Providence, Ri, 2001.

[10] G. Halphen: Sur une syste´m d’e´quations differentielles, C. R. Acad. Sci., Paris 92 (1881), 1101–1103.

[11] T. Huber: Differential equations for cubic theta functions, Int. J. Number Theory 7 (2011), 1945–1957.

[12] C.G.J. Jacobi: U¨ ber die Differentialgleichung welcher die Reihen 1 2q + 2q4 2q4 + etc., 2q1/4 + 2q9/4 + 2q25/4 + etc. Genuge leisten, J. Reine Angew. Math. 36 (1848), 97–112.

[13] S. Lang: Introduction to modular forms, Grundlehren der mathematischen Wissenschaften, 222, Springer- Verlag, Berlin-New York, 1976.

[14] G.A. Lomadze: Representation of numbers by sums of the quadratic forms x2 + x1 x2 + x2, Acta Arith. 54 (1989), 9–36.

[15] R.S. Maier: Nonlinear differential equations satisfied by certain classical modular forms, Manuscripta Math. 134 (2011), 1–42.

[16] T. Mano: Differential relations for modular forms of level five, J. Math. Kyoto Univ. 42 (2002), 41–55.

[17] Y. Ohyama: Differential relations of theta functions, Osaka J. Math. 32 (1995), 431–450.

[18] Y. Ohyama: Systems of nonlinear differential equations related to second order linear equations, Osaka J. Math. 33 (1996), 927–949.

[19] Y. Ohyama: Differential equations for modular forms of level three, Funkcial. Ekvac. 44 (2001), 377–389.

[20] B. van der Pol: On a non-linear partial differential equation satisfied by the logarithm of the Jacobian theta-functions, with arithmetical applications. I, II, Indagationes Math. 13 (1951), 261–271, 272–284.

[21] V. Ramamani: On some algebraic identities connected with Ramanujan’s work; in Ramanujan International Symposium on Analysis, Macmillan of India, New Delhi (1989), 277–291.

[22] R.A. Rankin: The construction of automorphic forms from the derivatives of a given form, J. Indian Math. Soc. 20 (1956), 103–116.

[23] K.S. Williams: Number theory in the spirit of Liouville, London Mathematical Society Student Texts 76, Cambridge University Press, Cambridge, 2011.

[24] E.T. Whittaker and G.N. Watson: A Course of Modern Analysis, Fourth edition, Reprinted, Cambridge University Press, New York 1962.