1,1

This constant appears in Benoit Cloitre's generalized Euler-Gauss formula for the Gamma function (see Cloitre link) and is involved in the exact determination of asymptotic limits of certain order-8 linear recursions with varying coefficients (see A097682 for example).

A. M. Odlyzko, Linear recurrences with varying coefficients, in Handbook of Combinatorics, Vol. 2, R. L. Graham, M. Grotschel and L. Lovasz, eds., Elsevier, Amsterdam, 1995, pp. 1135-1138.

Benoit Cloitre, On a generalization of Euler-Gauss formula for the Gamma function, pre-print 2004.

Xavier Gourdon and Pascal Sebah, Introduction to the Gamma Function.

Andrew Odlyzko, Asymptotic enumeration methods, in Handbook of Combinatorics, vol. 2, 1995, pp. 1063-1229.

c = (1+sqrt(2))^(-sqrt(2))/2*exp(Pi/2*(1+sqrt(2)))

c = 6.37663248941667785500176259382510790626743532678646216767306...

RealDigits[(1 + Sqrt[2])^(-Sqrt[2])/2E^(Pi/2*(1 + Sqrt[2])), 10, 105][[1]] (from Robert G. Wilson v Aug 27 2004)

(PARI) 8*exp(psi(7/8)+Euler)

Cf. A097663-A097675.

Sequence in context: A119643 A073223 A011191 this_sequence A125123 A133612 A070392

Adjacent sequences: A097673 A097674 A097675 this_sequence A097677 A097678 A097679

cons,nonn

Paul D. Hanna (pauldhanna(AT)juno.com), Aug 25 2004

More terms from Robert G. Wilson v (rgwv(AT)rgwv.com), Aug 27 2004