A164764 G.f. satisfies: the coefficient of x^n in A(x)^n = 2^(n^2) for n>=1 with A(0)=1.
1, 2, 6, 144, 15390, 6580224, 11386265292, 80284132772352, 2304717583810291830, 268613293782939614576640, 126760224526971269877523841364, 241675282146473482949215936098066432
Offset: 0
Keywords
Examples
G.f.: A(x) = 1 + 2*x + 6*x^2 + 144*x^3 + 15390*x^4 + 6580224*x^5 +... The coefficients in the successive powers of A(x) begin: [1,(2), 6, 144, 15390, 6580224, 11386265292, 80284132772352,...]; [1, 4,(16), 312, 31392, 13223736, 22799056896, 160613894000880,...]; [1, 6, 30,(512), 48078, 19932480, 34238570076, 240989363896320,...]; [1, 8, 48, 752,(65536), 26708592, 45705005568, 321410623205088,...]; [1, 10, 70, 1040, 83870,(33554432), 57198570060, 401877753223680,...]; [1, 12, 96, 1384, 103200, 40472616,(68719476736), 482390835814224,...]; [1, 14, 126, 1792, 123662, 47466048, 80267945884,(562949953421312),...]; [1, 16, 160, 2272, 145408, 54537952, 91844205568, 643555189090240,...]; ... The above terms in parenthesis = [x^n] A(x)^n = 2^(n^2) for n=1,2,3,... The main diagonal = [x^n] A(x)^(n+1) = (n+1)*A155200(n): [1, 2*2, 3*10, 4*188, 5*16774, 6*6745436, 7*11466849412, ...].
Programs
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PARI
{a(n)=local(G=exp(sum(m=1,n,2^(m^2)*x^m/m)+x*O(x^n)));polcoeff(x/serreverse(x*G),n)} -
PARI
{a(n)=local(A=1+x+x*O(x^n));for(i=1,n,A=exp(sum(m=1,n,2^(m^2)*(x/A)^m/m)));polcoeff(A,n)}
Formula
G.f. satisfies: A(x) = exp( Sum_{n>=1} 2^(n^2)*[x/A(x)]^n/n ).
Let G(x) = exp(Sum_{n>=1} 2^(n^2)*x^n/n) = g.f. of A155200, then:
(1) A(x) = G(x/A(x)) and A(x*G(x)) = G(x) ;
(2) A(x) = x/Series_Reversion[x*G(x)] ;
(3) [x^n] A(x)^(n+1)/(n+1) = [x^n] G(x) = A155200(n) ;
(4) [x^n] A(x)^(n+m)*m/(n+m) = [x^n] G(x)^m for all m.