-1,2

Fricke denotes tau_4(omega) the unique period one one-to-one function on polygon T_4 (all omega with real part absolute value less than one-half and above circles with radius one-quarter centered at one-quarter and minus one-quarter) whose value at zero is zero, at one-half is minus one-half, and at infinity is infinity.

R. Fricke, Die elliptischen Funktionen und ihre Anwendungen, Teubner, 1922, Vol. 2, see pp. 373-375.

Expansion of (eta(q)/eta(q^4))^8 in powers of q.

Expansion of (chi(-q)*chi(-q^2))^8/q in powers of q where chi() is a Ramanujan theta function.

Expansion of -16+16/lambda(z) in powers of nome q = exp(pi*i*z).

Euler transform of period 4 sequence [ -8, -8, -8, 0, ...].

G.f. A(x) satisfies 0=f(A(x), A(x^2)) where f(u, v) = u*(16+u)*(16+v) -v^2.

Elliptic j(z) = 64*(x^2+8*x+4)^3/(x^4*(2*x+1)) where x = tau_4(z).

tau_4(-1/(4*z)) = 1/(4*tau_4(z)).

G.f.: 1/x*(Product_{k>0} (1-x^k)/(1-x^(4k)))^8.

1/q - 8 + 20*q - 62*q^3 + 216*q^5 - 641*q^7 + 1636*q^9 - 3778*q^11 + ...

(PARI) {a(n)=local(A); if(n<-1, 0, n++; A=x*O(x^n); polcoeff( (eta(x+A)/eta(x^4+A))^8, n))}

A007248(n)=a(2n-1). A029845(n)=a(n) except n=0.

Sequence in context: A119284 A082231 A029845 this_sequence A000731 A034433 A120081

Adjacent sequences: A124969 A124970 A124971 this_sequence A124973 A124974 A124975

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Michael Somos, Nov 14 2006