2021
DOI: 10.48550/arxiv.2101.02953
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$q$-deformations of the modular group and of the real quadratic irrational numbers

Abstract: We develop further the theory of q-deformations of real numbers introduced in [MGO20] and [MGO19b] and focus in particular on the class of real quadratic irrationals. Our key tool is a q-deformation of the modular group PSLq(2, Z). The action of the modular group by Möbius transformations commutes with the q-deformations. We prove that the traces of the elements of PSLq(2, Z) are palindromic polynomials with positive coefficients. These traces appear in the explicit expressions of the q-deformed quadratic irra… Show more

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“…Remark 2.6. For general q-real quadratic irrational numbers, the palindromic of discriminant has been proved by considering a q-deformation of the elements of the modular group P SL(2, Z) (see [6]).…”
Section: Theorem 25 (The Palindromic Of Discriminant)mentioning
confidence: 99%
See 1 more Smart Citation
“…Remark 2.6. For general q-real quadratic irrational numbers, the palindromic of discriminant has been proved by considering a q-deformation of the elements of the modular group P SL(2, Z) (see [6]).…”
Section: Theorem 25 (The Palindromic Of Discriminant)mentioning
confidence: 99%
“…On the study of q-deformation of the real quadratic irrational numbers, L. Leclere and S. Morier-Genoud [6] proved some properties of q-deformation of them corresponding to classical real quadratic irrational numbers. On the other hand, since the q-real numbers are defined as power series in q, under the assumption that q is a complex number, L. Leclere, S. Morier-Genoud, V. Ovsienko, and A. Veselov [7] study its radiuses of convergence and give the following conjecture which can be viewed as a q-deformation of Hurwitz's Irrational Number Theorem.…”
Section: Introductionmentioning
confidence: 99%