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Reciprocal Fibonacci constant

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The reciprocal Fibonacci constant ψ is the sum of the reciprocals of the Fibonacci numbers:

Because the ratio of successive terms tends to the reciprocal of the golden ratio, which is less than 1, the ratio test shows that the sum converges.

The value of ψ is approximately

(sequence A079586 in the OEIS).

With k terms, the series gives O(k) digits of accuracy. Bill Gosper derived an accelerated series which provides O(k2) digits.[1] ψ is irrational, as was conjectured by Paul Erdős, Ronald Graham, and Leonard Carlitz, and proved in 1989 by Richard André-Jeannin.[2]

Its simple continued fraction representation is:

(sequence A079587 in the OEIS).

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In analogy to the Riemann zeta function, define the Fibonacci zeta function as for complex number s with Re(s) > 0, and its analytic continuation elsewhere. Particularly the given function equals ψ when s = 1.[3]

It was shown that:

See also

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References

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  1. Gosper, William R. (1974), Acceleration of Series, Artificial Intelligence Memo #304, Artificial Intelligence Laboratory, Massachusetts Institute of Technology, p. 66, hdl:1721.1/6088.
  2. André-Jeannin, Richard (1989), "Irrationalité de la somme des inverses de certaines suites récurrentes", Comptes Rendus de l'Académie des Sciences, Série I, 308 (19): 539–541, MR 0999451
  3. 1 2 3 4 Murty, M. Ram (2013), "The Fibonacci zeta function", in Prasad, D.; Rajan, C. S.; Sankaranarayanan, A.; Sengupta, J. (eds.), Automorphic representations and L-functions, Tata Institute of Fundamental Research Studies in Mathematics, vol. 22, Tata Institute of Fundamental Research, pp. 409–425, ISBN 978-93-80250-49-6, MR 3156859
  4. 1 2 Waldschmidt, Michel (January 2022). "Transcendental Number Theory: recent results and open problems" (Lecture slides).
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