A375454 - OEIS

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A375454

Expansion of g.f. A(x) satisfying A(x)^2 = A( x^2/(1-2*x)^4 ).

1, 4, 14, 56, 253, 1188, 5598, 26456, 126278, 611640, 3010948, 15058064, 76399263, 392524428, 2038142346, 10674131464, 56281299098, 298286598920, 1586959692508, 8466559886448, 45260129274602, 242296862848648, 1298487003814300, 6964374684442416, 37378818578434617, 200745991803248388

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OFFSET

1,2

COMMENTS

Compare to: F(x)^2 = F( x^2/(1-2*x) ), where F(x) = x*M(x) and M(x) = 1 + x*M(x) + x^2*M(x)^2 is the Motzkin function (A001006).

Compare to: G(x)^2 = G( x^2/(1-2*x)^2 ), where G(x) = x*C(x)^2 and C(x) = 1 + x*C(x)^2 is the Catalan function (A000108).

LINKS

Paul D. Hanna, Table of n, a(n) for n = 1..400

FORMULA

G.f. A(x) = Sum_{n>=1} a(n)*x^n satisfies the following formulas.

(1) A(x)^2 = A( x^2/(1-2*x)^4 ).

(2) A(x)^4 = A( x^4*(1-2*x)^8/((1-2*x)^4 - 2*x^2)^4 ).

(3) A(x^2 + 4*x^3 + 4*x^4) = A( x/(1+2*x) )^2.

The radius of convergence r satisfies r = (1 - 2*r)^4, where A(r) = 1 and r = 0.17610056436947880725475...

EXAMPLE

G.f.: A(x) = x + 4*x^2 + 14*x^3 + 56*x^4 + 253*x^5 + 1188*x^6 + 5598*x^7 + 26456*x^8 + 126278*x^9 + 611640*x^10 + ...

where A(x)^2 = A( x^2/(1-2*x)^4 ).

RELATED SERIES.

A(x)^2 = x^2 + 8*x^3 + 44*x^4 + 224*x^5 + 1150*x^6 + 5968*x^7 + 30920*x^8 + 159296*x^9 + 818013*x^10 + ...

(A(x)/x)^(1/2) = 1 + 2*x + 5*x^2 + 18*x^3 + 78*x^4 + 348*x^5 + 1551*x^6 + 6982*x^7 + 32114*x^8 + 151620*x^9 + 734458*x^10 + ...

(A(x)/x)^(1/4) = 1 + x + 2*x^2 + 7*x^3 + 30*x^4 + 130*x^5 + 561*x^6 + 2460*x^7 + 11115*x^8 + 51948*x^9 + 250551*x^10 + ...

x/Series_Reversion( A( x^4/(1-2*x)^4 )^(1/4) ) = 1 + 2*x + x^4 - 2*x^8 + 9*x^12 - 46*x^16 + 251*x^20 - 1467*x^24 + 9001*x^28 - 56961*x^32 + 369035*x^36 + ...

SPECIFIC VALUES.

A(t) = 3/4 at t = 0.1736940609090204697398931237543698538457793088071...

A(t) = 3/5 at t = 0.1683900940132911881249251740473132322447213579710...

A(t) = 1/2 at t = 0.1619792168710406277922262531667140037108384145069...

A(t) = 2/5 at t = 0.1519644942152899698264943158671103683281536948439...

A(t) = 1/4 at t = 0.1256102247935771858127425480259396391143977190820...

A(1/6) = 0.56831064552606196969057398988138945640151282529741...

where A(1/6)^2 = A(9/64).

A(1/7) = 0.33620864108171743638518920200481354359529601205566...

where A(1/7)^2 = A(49/625).

A(1/8) = 0.24749365203461325611367946855098276802746512221191...

where A(1/8)^2 = A(4/81).

A(1/9) = 0.19726025709005021216217281111162473370492543981591...

where A(1/9)^2 = A(81/2401).

A(1/10) = 0.1643908422523431149995416239752018754267879073230...

where A(1/10)^2 = A(25/1024).

PROG

(PARI) {a(n) = my(A=[0, 1], Ax=x); for(i=1, n, A = concat(A, 0); Ax=Ser(A);

A[#A] = (1/2)*polcoeff( subst(Ax, x, x^2/(1-2*x)^4 ) - Ax^2, #A) ); A[n+1]}

for(n=1, 30, print1(a(n), ", "))

CROSSREFS

Cf. A001006, A000108, A375453, A375455, A375456.

Sequence in context: A365114 A370720 A346816 * A006212 A126701 A309514

Adjacent sequences: A375451 A375452 A375453 * A375455 A375456 A375457

KEYWORD

nonn

AUTHOR

Paul D. Hanna, Aug 17 2024

STATUS

approved