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A Specialised Continued Fraction

Published online by Cambridge University Press:  20 November 2018

A. J. Van Der Poorten*
Affiliation:
Centre for Number Theory Research Macquarie University NSW 2109 Australia
J. Shallit*
Affiliation:
Department of Computer Science University of Waterloo Waterloo, Ontario N2L 3G1
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Abstract

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We display a number with a surprising continued fraction expansion and show that we may explain that expansion as a specialisation of the continued fraction expansion of a formal series: A series ΣchX-h has a continued fraction expansion with partial quotients polynomials in X of positive degree (other, perhaps than the 0-th partial quotient). Simple arguments, let alone examples, demonstrate that it is noteworthy if those partial quotients happen to have rational integer coefficients only. In that special case one may replace the variable X by an integer ≥ 2; that is: one may 'specialise' and thereby proceed to obtain the regular continued fraction expansion of values of the series. And that is significant because, generally, it is difficult to obtain the explicit continued fraction expansion of a number presented in different shape. Our example leads to a series with a specialisable continued fraction expansion and, a little surprisingly, our arguments suggest that the phenomenon of specialisability for series of the kind appearing here may be reserved to just the special subclass of series we happen to have stumbled upon.

Keywords

Type
Research Article
Copyright
Copyright © Canadian Mathematical Society 1993

Footnotes

The first author was supported in part by grants from the Australian Research Council

The second author was supported in part by a grant from NSERC Canada

References

1. Allouche, J.-R, Mendès France, M. and van der Poorten, A. J., An infinite product with bounded partial quotients, Acta Arithmetica, to appear.Google Scholar
2. Kmosek, M., Rozwiniçcie niektôrych liczb niewymiernych na ulamki lancuchowe, Master's Thesis, Uniwersytet Warszawski, Warsaw, 1979.Google Scholar
3. Kôhler, G., Some more predictable continued fractions, Monatshefte Math. 89(1980), 95-100.Google Scholar
4. Loxton, J. H. and van der Poorten, A. J., Arithmetic properties of certain functions in several variables HI, Bull. Austral. Math. Soc. 16(1977), 15-47.Google Scholar
5. Mendès France, M., Sur les fractions continues limité;es, Acta Arithmetica 23(1973), 207-215.Google Scholar
6. Mendès France, M. and van der Poorten, A. J., Some explicit continued fraction expansions, Mathematika 38(1991), 1-9.Google Scholar
7. Miles, E. P. Jr., Generalized Fibonacci numbers and associated matrices, Amer. Math. Monthly 67(1960), 745-752.Google Scholar
8. van der Poorten, A. J. and Shallit, J., Folded continued fractions, J. Number Theory 40(1992), 237-250.Google Scholar
9. Roth, K. F., Rational approximations to algebraic numbers, Mathematika 2(1955), 1-20.Google Scholar
10. Shallit, J., Simple continued fractions for some irrational numbers, J. Number Theory 11(1979), 209-217.Google Scholar
11. Shallit, J., Simple continued fractions for some irrational numbers II, J. Number Theory 14(1982), 228-231.Google Scholar