Komornik–Loreti constant

The Komornik–Loreti constant is a mathematical constant that represents the smallest number for which there still exists a unique q-development.

Definition

Given a real number q > 1, the series

x = \sum_{n=0}^\infty a_n q^{-n}

is called the q-expansion, or $\beta$ -expansion, of the positive real number x if, for all $n\geq 0$ , $0 \le a_n \le \lfloor q \rfloor$ , where $\lfloor q \rfloor$ is the floor function and $a_{n}$ need not be an integer. Any real number $x$ such that $0 \le x \le q \lfloor q \rfloor /(q-1)$ has such an expansion, as can be found using the greedy algorithm.

The special case of $x=1$ , $a_{0}=0$ , and $a_{n}=0$ or 1 is sometimes called a $q$ -development. $a_n = 1$ gives the only 2-development. However, for almost all $1 < q < 2$ , there are an infinite number of different $q$ -developments. Even more surprisingly though, there exist exceptional $q \in (1,2)$ for which there exists only a single $q$ -development. Furthermore, there is a smallest number $1 < q < 2$ known as the Komornik–Loreti constant for which there exists a unique $q$ -development.^[1]

The Komornik–Loreti constant is the value $q$ such that

1 = \sum_{n=1}^\infty \frac{t_k}{q^k}

where $t_{k}$ is the Thue–Morse sequence, i.e., $t_{k}$ is the parity of the number of 1's in the binary representation of $k$ . It has approximate value

q=1.787231650\ldots. \,

The constant $q$ is also the unique positive real root of

\prod_{k=0}^\infty \left ( 1 - \frac{1}{q^{2^k}} \right ) = \left ( 1 - \frac{1}{q} \right )^{-1} - 2.

This constant is transcendental.^[2]

References

↑ Weissman, Eric W. "q-expansion" From Wolfram MathWorld. Retrieved on 2009-10-18.
↑ Weissman, Eric W. "Komornik–Loreti Constant." From Wolfram MathWorld. Retrieved on 2010-12-27.

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[MW-1] Weissman, Eric W. "q-expansion" From Wolfram MathWorld. Retrieved on 2009-10-18.

[MW2-2] Weissman, Eric W. "Komornik–Loreti Constant." From Wolfram MathWorld. Retrieved on 2010-12-27.

Komornik–Loreti constant

Definition

See Also

References