Prouhet–Thue–Morse constant
In mathematics, the Prouhet–Thue–Morse constant, named for Eugène Prouhet , Axel Thue, and Marston Morse, is the number—denoted by τ—whose binary expansion 0.01101001100101101001011001101001... is given by the Prouhet–Thue–Morse sequence. That is,
where tn is the nth element of the Prouhet–Thue–Morse sequence.
Other representations
The Prouhet–Thue–Morse constant can also be expressed, without using tn , as an infinite product,[1]
This formula is obtained by substituting x = 1/2 into generating series for tn
The continued fraction expansion of the constant is [0; 2, 2, 2, 1, 4, 3, 5, 2, 1, 4, 2, 1, 5, 44, 1, 4, 1, 2, 4, 1, …] (sequence A014572 in the OEIS)
Yann Bugeaud and Martine Queffélec showed that infinitely many partial quotients of this continued fraction are 4 or 5, and infinitely many partial quotients are greater than or equal to 50.[2]
Transcendence
The Prouhet–Thue–Morse constant was shown to be transcendental by Kurt Mahler in 1929.[3]
He also showed that the number
is also transcendental for any algebraic number α, where 0 < |α| < 1.
Yann Bugaeud proved that the Prouhet–Thue–Morse constant has an irrationality measure of 2.[4]
Appearances
The Prouhet–Thue–Morse constant appears in probability. If a language L over {0, 1} is chosen at random, by flipping a fair coin to decide whether each word w is in L, the probability that it contains at least one word for each possible length is [5]
See also
Notes
- ^ Weisstein, Eric W. "Thue-Morse Constant". MathWorld.
- ^ Bugeaud, Yann; Queffélec, Martine (2013). "On Rational Approximation of the Binary Thue-Morse-Mahler Number". Journal of Integer Sequences. 16 (13.2.3).
- ^ Mahler, Kurt (1929). "Arithmetische Eigenschaften der Lösungen einer Klasse von Funktionalgleichungen". Math. Annalen. 101: 342–366. doi:10.1007/bf01454845. JFM 55.0115.01. S2CID 120549929.
- ^ Bugaeud, Yann (2011). "On the rational approximation to the Thue–Morse–Mahler numbers". Annales de l'Institut Fourier. 61 (5): 2065–2076. doi:10.5802/aif.2666.
- ^ Allouche, Jean-Paul; Shallit, Jeffrey (1999). "The Ubiquitous Prouhet–Thue–Morse Sequence". Discrete Mathematics and Theoretical Computer Science: 11.
References
- Allouche, Jean-Paul; Shallit, Jeffrey (2003). Automatic Sequences: Theory, Applications, Generalizations. Cambridge University Press. ISBN 978-0-521-82332-6. Zbl 1086.11015..
- Pytheas Fogg, N. (2002). Berthé, Valérie; Ferenczi, Sébastien; Mauduit, Christian; Siegel, Anne (eds.). Substitutions in dynamics, arithmetics and combinatorics. Lecture Notes in Mathematics. Vol. 1794. Berlin: Springer-Verlag. ISBN 3-540-44141-7. Zbl 1014.11015.
External links
- OEIS sequence A010060 (Thue–Morse sequence)
- The ubiquitous Prouhet–Thue–Morse sequence, John-Paull Allouche and Jeffrey Shallit, (undated, 2004 or earlier) provides many applications and some history
- PlanetMath entry