2022
DOI: 10.1093/imrn/rnac143
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Hall–Littlewood Polynomials, Boundaries, and p-Adic Random Matrices

Abstract: We prove that the boundary of the Hall–Littlewood $t$-deformation of the Gelfand–Tsetlin graph is parametrized by infinite integer signatures, extending results of Gorin [23] and Cuenca [15] on boundaries of related deformed Gelfand–Tsetlin graphs. In the special case when $1/t$ is a prime $p$, we use this to recover results of Bufetov and Qiu [12] and Assiotis [1] on infinite $p$-adic random matrices, placing them in the general context of branching graphs derived from symmetric functions. Our methods rely on… Show more

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Cited by 9 publications
(4 citation statements)
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“…In recent years the moment method was successfully used in many situations [32,19,14,2,35,3,4,12,33] see also the survey of Wood [40]. Note that some of these results can be also extended to symmetric matrices, where in the limit we get some modified version of the Cohen-Lenstra distribution [5,6].…”
Section: Background and Discussionmentioning
confidence: 99%
“…In recent years the moment method was successfully used in many situations [32,19,14,2,35,3,4,12,33] see also the survey of Wood [40]. Note that some of these results can be also extended to symmetric matrices, where in the limit we get some modified version of the Cohen-Lenstra distribution [5,6].…”
Section: Background and Discussionmentioning
confidence: 99%
“…When the principal specialization is infinite, nice formulas for the principally specialized skew Hall-Littlewood polynomials were shown in [54]. The phrasing below follows [77,Theorem 3.3]. Proposition 3.11.…”
Section: Symmetric Functionsmentioning
confidence: 99%
“…Hence the singular numbers of a product A τ • • • A 1 , with A i ∈ Mat N (Z p ) additive Haar, will become larger as τ increases, looking like Figure 3 instead of Figure 2. For fixed τ , an exact distribution was computed in [76,Corollary 3.4], further simplified in [77,Theorem 1.4], and shown to be universal in the N → ∞ limit for matrices with generic iid entries in [68]. For fixed N and τ → ∞, the singular numbers were shown in [76] to have independent Gaussian fluctuations asymptotically.…”
mentioning
confidence: 99%
“…In the case of the Gelfand-Tsetlin graph it is equivalent to the classification of extreme characters of the infinite-dimensional unitary group U(∞) and also the classification of totally non-negative Toeplitz matrices, see [31]. The fact that an explicit classification sometimes exists is remarkable and has been achieved only for a handful of models, see for example [31,127,126,115,114,125,101,69,70,11]. In the case of GT + , recall a x ≡ 1, all such measures are given by (22), see [31].…”
Section: Extremal Measures For the Inhomogeneous Gelfand-tsetlin Graphmentioning
confidence: 99%