BBC Russian

A361553

Expansion of g.f. A(x) satisfying 3*x = Sum_{n=-oo..+oo} x^(n*(3*n+1)/2) * (A(x)^(3*n) - 1/A(x)^(3*n+1)).

1, 3, 24, 171, 1335, 11940, 115773, 1160901, 11901537, 124726644, 1332688035, 14455451526, 158660036535, 1758835084221, 19667067522966, 221573079684087, 2512635069594897, 28656903391830291, 328500210705228867, 3782806859877522522, 43738575934977450465 (list; graph; refs; listen; history; text; internal format)

	OFFSET	`0,2`
	LINKS	`Paul D. Hanna, Table of n, a(n) for n = 0..300` `Eric Weisstein's World of Mathematics, Quintuple Product Identity.`
	FORMULA	`G.f. A(x) = Sum_{n>=0} a(n)x^n satisfies the following.` `(1) 3x = Sum_{n=-oo..+oo} x^(n(3n+1)/2) * (A(x)^(3n) - 1/A(x)^(3n+1)).` `(2) 3x = Sum_{n=-oo..+oo} x^(n(3n-1)/2) A(x)^(3n) (x^n - 1/A(x)).` `(3) 3x = Product_{n>=1} (1 - x^n) (1 - x^nA(x)) (1 - x^(n-1)/A(x)) * (1 - x^(2n-1)A(x)^2) * (1 - x^(2n-1)/A(x)^2), by the Watson quintuple product identity.` `(4) a(n) = Sum_{k=0..n} A361550(n,k) 3^k for n >= 0.` `a(n) ~ c * d^n / n^(3/2), where d = 12.47776743014414138089586... and c = 0.474320402676760199022... - Vaclav Kotesovec, Mar 29 2023`
	EXAMPLE	`G.f.: A(x) = 1 + 3x + 24x^2 + 171x^3 + 1335x^4 + 11940x^5 + 115773x^6 + 1160901x^7 + 11901537x^8 + 124726644x^9 + ...` `where A = A(x) satisfies the doubly infinite sum` `3x = ... + x^12(1/A^9 - A^8) + x^5(1/A^6 - A^5) + x(1/A^3 - A^2) + (1 - 1/A) + x^2(A^3 - 1/A^4) + x^7(A^6 - 1/A^7) + x^15(A^9 - 1/A^10) + ... + x^(n(3n+1)/2) * (A(x)^(3n) - 1/A(x)^(3n+1)) + ...` `also, by the Watson quintuple product identity,` `3x = (1-x)(1-xA)(1-1/A)(1-xA^2)(1-x/A^2) (1-x^2)(1-x^2A)(1-x/A)(1-x^3A^2)(1-x^3/A^2) * (1-x^3)(1-x^3A)(1-x^2/A)(1-x^5A^2)(1-x^5/A^2) * (1-x^4)(1-x^4A)(1-x^3/A)(1-x^7A^2)(1-x^7/A^2) * ...`
	MATHEMATICA	(* Calculation of constant d: ) With[{k = 3}, 1/r /. FindRoot[{r^3s^3 * QPochhammer[r] * QPochhammer[1/(rs^2), r^2] QPochhammer[1/(rs), r] QPochhammer[s, r] * QPochhammer[s^2/r, r^2] / ((-1 + s)(-1 + rs)(-r + s^2)(-1 + rs^2)) == kr, 1/(-1 + s) + 1/(s(-1 + rs)) + (2s)/(-r + s^2) - 2/(s - rs^3) + (-QPolyGamma[0, -Log[rs]/Log[r], r] + QPolyGamma[0, Log[s]/Log[r], r] - QPolyGamma[0, -Log[rs^2]/Log[r^2], r^2] + QPolyGamma[0, Log[s^2/r]/Log[r^2], r^2]) / (sLog[r]) == 0}, {r, 1/12}, {s, 2}, WorkingPrecision -> 70]] ( Vaclav Kotesovec, Jan 18 2024 *)
	PROG	`(PARI) /* Using the doubly infinite series /` `{a(n) = my(A=[1]); for(i=1, n, A = concat(A, 0);` `A[#A] = polcoeff(3x - sum(m=-#A, #A, x^(m(3m-1)/2) * Ser(A)^(3m-1) (x^mSer(A) - 1) ) , #A-1) ); A[n+1]}` `for(n=0, 30, print1(a(n), ", "))` `(PARI) / Using the quintuple product /` `{a(n) = my(A=[1]); for(i=1, n, A = concat(A, 0);` `A[#A] = polcoeff(3x - prod(m=1, #A, (1 - x^m) * (1 - x^mSer(A)) (1 - x^(m-1)/Ser(A)) * (1 - x^(2m-1)Ser(A)^2) * (1 - x^(2*m-1)/Ser(A)^2) ), #A-1) ); A[n+1]}` `for(n=0, 30, print1(a(n), ", "))`
	CROSSREFS	`Cf. A361550, A359920, A361552, A361554, A361555.` `Sequence in context: A058038 A089697 A120741 * A356362 A356361 A292293` `Adjacent sequences: A361550 A361551 A361552 * A361554 A361555 A361556`
	KEYWORD	`nonn`
	AUTHOR	`Paul D. Hanna, Mar 19 2023`
	STATUS	`approved`