Embree–Trefethen constant
In number theory, the Embree–Trefethen constant is a threshold value labelled β* ≈ 0.70258.[1] For a fixed positive number β, consider the recurrence relation
- [math]\displaystyle{ x_{n+1}=x_n \pm \beta x_{n-1} \, }[/math]
where the sign in the sum is chosen at random for each n independently with equal probabilities for "+" and "−". This is a generalization of the random Fibonacci sequence to values of β ≠ 1.
It can be proven that for any choice of β, the limit
- [math]\displaystyle{ \sigma(\beta) = \lim_{n \to \infty} (|x_n|^{1/n}) \, }[/math]
exists almost surely. In informal words, the sequence behaves exponentially with probability one, and σ(β) can be interpreted as its almost sure rate of exponential growth.
β* ≈ 0.70258 is defined as the threshold value for which
- σ(β) < 1 for 0 < β < β*,
so solutions to this recurrence decay exponentially as n → ∞, and
- σ(β) > 1 for β > β*,
so they grow exponentially. (In both cases, with probability 1.)
Regarding values of σ, we have:
- σ(1) = 1.13198824... (Viswanath's constant), and
- σ(β*) = 1 (by definition).
The constant is named after applied mathematicians Mark Embree and Lloyd N. Trefethen.
References
- ↑ Embree, M.; Trefethen, L. N. (1999). "Growth and decay of random Fibonacci sequences". Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences 455 (1987): 2471. doi:10.1098/rspa.1999.0412. Bibcode: 1999RSPSA.455.2471T. http://people.maths.ox.ac.uk/~trefethen/publication/PDF/1999_86.pdf.
External links
- Weisstein, Eric W.. "Random Fibonacci Sequence". http://mathworld.wolfram.com/RandomFibonacciSequence.html.
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