Add to ORKGIt is widely believed that the continued fraction expansion of every irrational algebraic number $\alpha$ either is eventually periodic (and we know that this is the case if and only if $\alpha$ is a quadratic irrational), or it contains arbitrarily large partial quotients. Apparently, this question was first considered by Khintchine. A preliminary step towards its resolution consists in providing explicit examples of transcendental continued fractions. The main purpose of the present work is to present new families of transcendental continued fractions with bounded partial quotients. Our results are derived thanks to new combinatorial transcendence criteria recently obtained by Adamczewski and Bugeaud
AbstractIn two previous papers Nettler proved the transcendence of the continued fractions A := a1 +...
In this paper we show how to apply various techniques and theorems (including Pincherle’s theorem, a...
AbstractIn a previous paper it was proven that given the continued fractions A = a1+1a2+1a3+… and B ...
It is widely believed that the continued fraction expansion of every irrational algebraic number $\a...
It is widely believed that the continued fraction expansion of every irrational algebraic number $\a...
It is widely believed that the continued fraction expansion of every irrational algebraic number $\a...
The continued fraction expansion of an irrational number $\alpha$ is eventually periodic if and only...
The continued fraction expansion of an irrational number $\alpha$ is eventually periodic if and only...
AbstractWe prove a criterion for the transcendence of continued fractions whose partial quotients ar...
In the present work, we investigate real numbers whose sequence of partial quotients enjoys some com...
We use the Schmidt Subspace Theorem to establish the transcendence of a class of quasi-periodic cont...
We use the Schmidt Subspace Theorem to establish the transcendence of a class of quasi-periodic cont...
In the present work, we investigate real numbers whose sequence of partial quotients enjoys some com...
The aim of the present note is to establish two extensions of some transcendence criteria for real n...
In the present paper, we give sufficient conditions on the elements of the continued fractions $A$ a...
AbstractIn two previous papers Nettler proved the transcendence of the continued fractions A := a1 +...
In this paper we show how to apply various techniques and theorems (including Pincherle’s theorem, a...
AbstractIn a previous paper it was proven that given the continued fractions A = a1+1a2+1a3+… and B ...
It is widely believed that the continued fraction expansion of every irrational algebraic number $\a...
It is widely believed that the continued fraction expansion of every irrational algebraic number $\a...
It is widely believed that the continued fraction expansion of every irrational algebraic number $\a...
The continued fraction expansion of an irrational number $\alpha$ is eventually periodic if and only...
The continued fraction expansion of an irrational number $\alpha$ is eventually periodic if and only...
AbstractWe prove a criterion for the transcendence of continued fractions whose partial quotients ar...
In the present work, we investigate real numbers whose sequence of partial quotients enjoys some com...
We use the Schmidt Subspace Theorem to establish the transcendence of a class of quasi-periodic cont...
We use the Schmidt Subspace Theorem to establish the transcendence of a class of quasi-periodic cont...
In the present work, we investigate real numbers whose sequence of partial quotients enjoys some com...
The aim of the present note is to establish two extensions of some transcendence criteria for real n...
In the present paper, we give sufficient conditions on the elements of the continued fractions $A$ a...
AbstractIn two previous papers Nettler proved the transcendence of the continued fractions A := a1 +...
In this paper we show how to apply various techniques and theorems (including Pincherle’s theorem, a...
AbstractIn a previous paper it was proven that given the continued fractions A = a1+1a2+1a3+… and B ...