This is a front-end for the Online Encyclopedia of Integer Sequences, made by Christian Perfect. The idea is to provide OEIS entries in non-ancient HTML, and then to think about how they're presented visually. The source code is on GitHub.
%I A295763 #20 Mar 18 2024 05:13:18
%S A295763 1,1,4,42,744,18570,596929,23457763,1089601420,58424516424,
%T A295763 3553205095552,241765128267597,18202737707568180,1502857964050898494,
%U A295763 135033771405912550765,13119213786776385900734,1370572549521961522812200,153224265349198540163190599,18253426026439076436840194131,2308479498698233016622014842489
%N A295763 G.f. satisfies: A(x) = Sum_{n>=0} binomial(n*(n+1),n)/(n+1) * x^n/A(x)^n.
%H A295763 Paul D. Hanna, <a href="/A295763/b295763.txt">Table of n, a(n) for n = 0..300</a>
%F A295763 G.f. A(x) satisfies: [x^n] A(x)^(n+1) = binomial(n*(n+1),n) for n>=0.
%F A295763 a(n) ~ c * exp(n) * n^(n - 3/2), where c = exp(1/2 - exp(-2)) / sqrt(2*Pi) = 0.5744892944370457395619... - _Vaclav Kotesovec_, Oct 17 2020, updated Mar 18 2024
%e A295763 G.f.: A(x) = 1 + x + 4*x^2 + 42*x^3 + 744*x^4 + 18570*x^5 + 596929*x^6 + 23457763*x^7 + 1089601420*x^8 + 58424516424*x^9 + 3553205095552*x^10 +...
%e A295763 such that
%e A295763 A(x) = 1 + x/A(x) + 5*(x/A(x))^2 + 55*(x/A(x))^3 + 969*(x/A(x))^4 + 23751*(x/A(x))^5 + 749398*(x/A(x))^6 +...+ binomial(n*(n+1),n)/(n+1)*(x/A(x))^n +...
%e A295763 The table of coefficients of x^k in A(x)^(n+1) begins:
%e A295763 [1, 1, 4, 42, 744, 18570, 596929, 23457763, 1089601420, ...];
%e A295763 [1, 2, 9, 92, 1588, 38964, 1238714, 48320440, 2233007214, ...];
%e A295763 [1, 3, 15, 151, 2544, 61356, 1928659, 74668905, 3432698217, ...];
%e A295763 [1, 4, 22, 220, 3625, 85936, 2670332, 102589280, 4691284160, ...];
%e A295763 [1, 5, 30, 300, 4845, 112911, 3467585, 132173305, 6011511390, ...];
%e A295763 [1, 6, 39, 392, 6219, 142506, 4324575, 163518732, 7396271082, ...];
%e A295763 [1, 7, 49, 497, 7763, 174965, 5245786, 196729744, 8848607971, ...];
%e A295763 [1, 8, 60, 616, 9494, 210552, 6236052, 231917400, 10371729633, ...];
%e A295763 [1, 9, 72, 750, 11430, 249552, 7300581, 269200107, 11969016345, ...]; ...
%e A295763 in which the main diagonal begins:
%e A295763 [1, 2, 15, 220, 4845, 142506, 5245786, ..., binomial(n*(n+1),n), ...],
%e A295763 thus [x^n] A(x)^(n+1) = [x^n] (1 + x)^(n*(n+1)) for n>=0.
%t A295763 terms = 20; A[_] = 1; Do[A[x_] = Sum[Binomial[n*(n+1), n]/(n+1)*x^n/A[x]^n, {n, 0, terms}] + O[x]^terms // Normal, terms];
%t A295763 CoefficientList[A[x], x] (* _Jean-François Alcover_, Jan 14 2018 *)
%o A295763 (PARI) {a(n) = my(A=[1]); for(m=1,n, A = concat(A,0); V = Vec( Ser(A)^(m+1) ); A[m+1] = (binomial(m*(m+1),m) - V[m+1])/(m+1);); A[n+1]}
%o A295763 for(n=0,20,print1(a(n),", "))
%Y A295763 cf. A295764, A295765, A135861, A135860.
%K A295763 nonn
%O A295763 0,3
%A A295763 _Paul D. Hanna_, Jan 06 2018