Search: id:A004009 Results 1-1 of 1 results found. %I A004009 M5416 %S A004009 1,240,2160,6720,17520,30240,60480,82560,140400,181680,272160,319680, %T A004009 490560,527520,743040,846720,1123440,1179360,1635120,1646400,2207520, %U A004009 2311680,2877120,2920320,3931200,3780240,4747680,4905600,6026880 %N A004009 Expansion of Eisenstein series E_4(q) (alternate convention E_2(q)); theta series of E_8 lattice. %C A004009 E_8 is also the Barnes-Wall lattice in 8 dimensions. %C A004009 Expansion of Ramanujan's function Q(q)=12g2 (Weierstrass invariant). %D A004009 D. Bump, Automorphic Forms..., Camb., 1997 p. 29. %D A004009 J. H. Conway and N. J. A. Sloane, "Sphere Packings, Lattices and Groups", Springer-Verlag, p. 123. %D A004009 H. S. M. Coxeter, Integral Cayley numbers, Duke Math. J. 13 (1946), 561-578; reprinted in "Twelve Geometric Essays", pp. 20-39. %D A004009 W. Ebeling, Lattices and Codes, Vieweg; 2nd ed., 2002, see p. 53. %D A004009 R. C. Gunning, Lectures on Modular Forms. Princeton Univ. Press, Princeton, NJ, 1962, p. 53. %D A004009 M. Kaneko and D. Zagier, Supersingular j-invariants, hypergeometric series and Atkin's orthogonal polynomials, pp. 97-126 of D. A. Buell and J. T. Teitelbaum, eds., Computational Perspectives on Number Theory, Amer. Math. Soc., 1998. %D A004009 N. Koblitz, Introduction to Elliptic Curves and Modular Forms, Springer-Verlag, 1984, see p. 111. %D A004009 S. Ramanujan, On Certain Arithmetical Functions, Messenger Math., 45 (1916), 11-15 (Eq. (25)). Collected Papers of Srinivasa Ramanujan, Chap. 16, Ed. G. H. Hardy et al., Chelsea, NY, 1962. %D A004009 S. Ramanujan, On Certain Arithmetical Functions, Messenger Math., 45 (1916), 11-15 (Eq. (25)). Ramanujan's Papers, p. 196, Ed. B. J. Venkatachala et al., Prism Books, Bangalore 2000. %D A004009 Jean-Pierre Serre, "A Course in Arithmetic", Springer, 1978 %D A004009 Joseph H. Silverman, "Advanced Topics in the Arithmetic of Elliptic Curves", Springer, 1994 %D A004009 N. J. A. Sloane, Seven Staggering Sequences, in Homage to a Pied Puzzler, E. Pegg Jr., A. H. Schoen and T. Rodgers (editors), A. K. Peters, Wellesley, MA, 2009, pp. 93-110. %D A004009 N. J. A. Sloane and Simon Plouffe, The Encyclopedia of Integer Sequences, Academic Press, 1995 (includes this sequence). %H A004009 N. J. A. Sloane, Table of n, a(n) for n = 0..1000 %H A004009 H. H. Chan and C. Krattenthaler, Recent progress in the study of representations of integers as sums of squares %H A004009 N. Heninger, E. M. Rains and N. J. A. Sloane, On the Integrality of n-th Roots of Generating Functions, J. Combinatorial Theory, Series A, 113 (2006), 1732-1745. %H A004009 G. Nebe and N. J. A. Sloane, Home page for E_8 lattice %H A004009 H. Ochiai, Counting functions for branched covers of elliptic curves and quasi-modular forms %H A004009 S. Ramanujan, On the coefficients in the expansions of certain modular functions, Proc. Royal Soc., A, 95 (1918), 144-155. %H A004009 N. J. A. Sloane, My favorite integer sequences, in Sequences and their Applications (Proceedings of SETA '98). %H A004009 N. J. A. Sloane, Seven Staggering Sequences. %H A004009 Eric Weisstein's World of Mathematics, Link to a section of The World of Mathematics. %H A004009 Eric Weisstein's World of Mathematics, Link to a section of The World of Mathematics. %H A004009 Eric Weisstein's World of Mathematics, Barnes-Wall Lattice %H A004009 Index entries for sequences related to Eisenstein series %H A004009 Index entries for sequences related to Barnes-Wall lattices %F A004009 Can also be expressed as E4(q) = 1 + 240 sum_{i=1}^infinity i^3 q^i/(1-q^i) - Gene Ward Smith (genewardsmith(AT)gmail.com), Aug 22 2006 %F A004009 1 + 240*Sum ( sigma_3 (m) * q^2m ), m = 1..inf, where sigma_3 (m) is the sum of the cubes of the divisors of m (A001158). %F A004009 G.f. A(x) satisfies 0=f(A(x), A(x^2), A(x^4)) where f(u, v, w)=u^2+33*v^2+256*w^2-18*u*v+16*u*w-288*v*w . - Michael Somos Jan 05 2006 %F A004009 Expansion of (phi(-q)^8 -(2phi(-q)phi(q))^4 +16phi(q)^8) in powers of q where phi() is a Ramanujan theta function. %F A004009 G.f. A(x) satisfies 0=f(A(x), A(x^2), A(x^3), A(x^6)) where f(u1, u2, u3, u6)= +u1^2 +16*u2^2 +81*u3^2 +1296*u6^2 -14*u1*u2 -18*u1*u3 +30*u1*u6 +30*u2*u3 -288*u2*u6 -1134*u3*u6 . - Michael Somos Apr 15 2007 %F A004009 G.f. A(x) satisfies 0=f(A(x), A(x^3), A(x^9)) where f(u, v, w)= +u^3*v +9*w*u^3 -84*u^2*v^2 +246*u*v^3 -253*v^4 -675*w*u^2*v +729*w^2*u^2 -4590*w*u*v^2 +19926*w*v^3 -54675*w^2*u*v +59049*w^3*u +531441*w^3*v -551124*w^2*v^2 . - Michael Somos Apr 15 2007 %F A004009 Expansion of (eta(q)^24 + 256 * eta(q^2)^24) / (eta(q) * eta(q^2))^8 in powers of q. - Michael Somos Dec 30 2008 %F A004009 G.f. is a period 1 Fourier series which satisfies f(-1 / t) = (t/i)^4 * f(t) where q = exp(2 pi i t). - Michael Somos Dec 30 2008 %e A004009 1 + 240*q + 2160*q^2 + 6720*q^3 + 17520*q^4 + 30240*q^5 + 60480*q^6 + ... %p A004009 with(numtheory); E := proc(k) local n,t1; t1 := 1-(2*k/bernoulli(k))*add(sigma[k-1](n)*q^n, n=1..60); series(t1,q,60); end; E(4); %o A004009 (PARI) a(n)=if(n<1,n==0,240*sigma(n,3)) %o A004009 (PARI) {a(n) = local(A); if( n<0, 0, A = x * O(x^n); polcoeff( (eta(x + A)^24 + 256 * x * eta(x^2 + A)^24) / (eta(x + A) * eta(x^2 + A))^8, n))} /* Michael Somos Dec 30 2008 */ %Y A004009 Cf. A046948, A000143, A108091 (eighth root). %Y A004009 Cf. A001158. %Y A004009 A008410 is convolution of this sequence with itself. A008411 is convolution of this sequence with A008410. %Y A004009 Cf. A006352 (E_2), A004009 (E_4), A013973 (E_6), A008410 (E_8), A013974 (E_10), A029828 (E_12), A058550 (E_14), A029829 (E_16), A029830 (E_20), A029831 (E_24). %Y A004009 Sequence in context: A158562 A157766 A049335 this_sequence A005950 A004536 A145094 %Y A004009 Adjacent sequences: A004006 A004007 A004008 this_sequence A004010 A004011 A004012 %K A004009 nonn,easy,nice %O A004009 0,2 %A A004009 N. J. A. Sloane (njas(AT)research.att.com). Search completed in 0.002 seconds