A construction of a $λ$- Poisson generic sequence

Years ago Zeev Rudnick defined the ${\lambda}$-Poisson generic sequences as the infinite sequences of symbols in a finite alphabet where the number of occurrences of long words in the initial segments follow the Poisson distribution with parameter ${\lambda}$. Although almost all sequences, with respect to the uniform measure, are Poisson generic, no explicit instance has yet been given. In this note we give a construction of an explicit ${\lambda}$-Poisson generic sequence over any alphabet and any positive ${\lambda}$, except for the case of the two-symbol alphabet, in which it is required that ${\lambda}$ be less than or equal to the natural logarithm of $2$. Since ${\lambda}$-Poisson genericity implies Borel normality, the constructed sequences are Borel normal. The same construction provides explicit instances of Borel normal sequences that are not ${\lambda}$-Poisson generic.