Transversality for Critical Relations of Families of Rational Maps: An Elementary Proof

Fractal groups (also called self-similar groups) is the class of groups discovered by the first author in the 1980s with the purpose of solving some famous problems in mathematics, including the question of raising to von Neumann about non-elementary amenability (in the association with studies around the Banach-Tarski Paradox) and John Milnor’s question on the existence of groups of intermediate growth between polynomial and exponential. Fractal groups arise in various fields of mathematics, including the theory of random walks, holomorphic dynamics, automata theory, operator algebras, etc. They have relations to the theory of chaos, quasi-crystals, fractals, and random Schrödinger operators. One important development is the relation of fractal groups to multi-dimensional dynamics, the theory of joint spectrum of pencil of operators, and the spectral theory of Laplace operator on graphs. This paper gives a quick access to these topics, provides calculation and analysis of multi-dimensional rational maps arising via the Schur complement in some important examples, including the first group of intermediate growth and its overgroup, contains a discussion of the dichotomy “integrable-chaotic” in the considered model, and suggests a possible probabilistic approach to studying the discussed problems.

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An Algebraic Brascamp–Lieb Inequality

Journal of Geometric Analysis ◽

10.1007/s12220-021-00638-9 ◽

2021 ◽

Author(s):

Jennifer Duncan

Keyword(s):

General Class ◽

Recent Progress ◽

Algebraic Groups ◽

Hölder’S Inequality ◽

Duke Math ◽

Rational Maps ◽

Affine Invariant ◽

Linear Maps ◽

Nonlinear Maps ◽

Funct Anal

AbstractThe Brascamp–Lieb inequalities are a very general class of classical multilinear inequalities, well-known examples of which being Hölder’s inequality, Young’s convolution inequality, and the Loomis–Whitney inequality. Conventionally, a Brascamp–Lieb inequality is defined as a multilinear Lebesgue bound on the product of the pullbacks of a collection of functions $$f_j\in L^{q_j}(\mathbb {R}^{n_j})$$ f j ∈ L q j ( R n j ) , for $$j=1,\ldots ,m$$ j = 1 , … , m , under some corresponding linear maps $$B_j$$ B j . This regime is now fairly well understood (Bennett et al. in Geom Funct Anal 17(5):1343–1415, 2008), and moving forward there has been interest in nonlinear generalisations, where $$B_j$$ B j is now taken to belong to some suitable class of nonlinear maps. While there has been great recent progress on the question of local nonlinear Brascamp–Lieb inequalities (Bennett et al. in Duke Math J 169(17):3291–3338, 2020), there has been relatively little regarding global results; this paper represents some progress along this line of enquiry. We prove a global nonlinear Brascamp–Lieb inequality for ‘quasialgebraic’ maps, a class that encompasses polynomial and rational maps, as a consequence of the multilinear Kakeya-type inequalities of Zhang and Zorin-Kranich. We incorporate a natural affine-invariant weight that both compensates for local degeneracies and yields a constant with minimal dependence on the underlying maps. We then show that this inequality generalises Young’s convolution inequality on algebraic groups with suboptimal constant.

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An elementary proof of the existence of monotone traveling waves solutions in a generalized Klein–Gordon equation

Mathematical Methods in the Applied Sciences ◽

10.1002/mma.7446 ◽

2021 ◽

Author(s):

Adrian Gomez ◽

Nolbert Morales ◽

Manuel Zamora

Keyword(s):

Traveling Waves ◽

Elementary Proof ◽

Gordon Equation ◽

Klein Gordon ◽

Klein Gordon Equation

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Antisymmetry of the Stochastical Order on all Ordered Topological Spaces

Analysis and Geometry in Metric Spaces ◽

10.1515/agms-2019-0012 ◽

2019 ◽

Vol 7 (1) ◽

pp. 250-252 ◽

Cited By ~ 1

Author(s):

Tobias Fritz

Keyword(s):

Topological Space ◽

General Result ◽

Elementary Proof ◽

Short Note ◽

Stochastic Order ◽

Topological Spaces ◽

Probability Measures ◽

Ordered Topological Space ◽

Special Cases

Abstract In this short note, we prove that the stochastic order of Radon probability measures on any ordered topological space is antisymmetric. This has been known before in various special cases. We give a simple and elementary proof of the general result.

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Computation of the degree of rational maps between curves

Proceedings of the 2001 international symposium on Symbolic and algebraic computation - ISSAC '01 ◽

10.1145/384101.384144 ◽

2001 ◽

Cited By ~ 5

Author(s):

J. Rafael Sendra ◽

Franz Winkler

Keyword(s):

Rational Maps

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On random divisions of a convex set

Journal of Applied Probability ◽

10.2307/3213129 ◽

1978 ◽

Vol 15 (3) ◽

pp. 645-649 ◽

Cited By ~ 3

Author(s):

Svante Janson

Keyword(s):

Elementary Proof ◽

Convex Set ◽

Limiting Distribution ◽

Independent Identically Distributed ◽

Normally Distributed

This paper gives an elementary proof that, under some general assumptions, the number of parts a convex set in Rd is divided into by a set of independent identically distributed hyperplanes is asymptotically normally distributed. An example is given where the distribution of hyperplanes is ‘too singular' to satisfy the assumptions, and where a different limiting distribution appears.

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Another Elementary Proof of Peano's Existence Theorem

American Mathematical Monthly ◽

10.2307/2319357 ◽

1976 ◽

Vol 83 (7) ◽

pp. 556 ◽

Cited By ~ 1

Author(s):

Clifford Gardner

Keyword(s):

Existence Theorem ◽

Elementary Proof

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ON THE STABILITY OF SYZYGY BUNDLES

International Journal of Mathematics ◽

10.1142/s0129167x1100688x ◽

2011 ◽

Vol 22 (04) ◽

pp. 515-534 ◽

Cited By ~ 1

Author(s):

IUSTIN COANDĂ

Keyword(s):

Projective Space ◽

Complete Intersection ◽

Vector Bundles ◽

Elementary Proof ◽

Base Point ◽

Vector Spaces ◽

Similar Argument ◽

Vanishing Theorem ◽

The Stability ◽

Koszul Cohomology

We are concerned with the problem of the stability of the syzygy bundles associated to base-point-free vector spaces of forms of the same degree d on the projective space of dimension n. We deduce directly, from M. Green's vanishing theorem for Koszul cohomology, that any such bundle is stable if its rank is sufficiently high. With a similar argument, we prove the semistability of a certain syzygy bundle on a general complete intersection of hypersurfaces of degree d in the projective space. This answers a question of H. Flenner [Comment. Math. Helv.59 (1984) 635–650]. We then give an elementary proof of H. Brenner's criterion of stability for monomial syzygy bundles, avoiding the use of Klyachko's results on toric vector bundles. We finally prove the existence of stable syzygy bundles defined by monomials of the same degree d, of any possible rank, for n at least 3. This extends the similar result proved, for n = 2, by L. Costa, P. Macias Marques and R. M. Miro-Roig [J. Pure Appl. Algebra214 (2010) 1241–1262]. The extension to the case n at least 3 has been also, independently, obtained by P. Macias Marques in his thesis [arXiv:0909.4646/math.AG (2009)].

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