Showing total 323 results

1. Gap phenomena and curvature estimates for conformally compact Einstein manifolds

Author

Li, Gang, Qing, Jie, and Shi, Yuguang

Subjects

Conformally compact Einstein manifolds, gap phenomena, rigidity, curvature estimates, renormalized volumes, Yamabe constants, math.DG, Primary 53C25, Secondary 58J05, Pure Mathematics, Applied Mathematics, General Mathematics

Abstract

In this paper we obtain first a gap theorem for a class of conformally compact Einstein manifolds with a renormalized volume that is close to its maximum value. We also use a blow-up method to derive curvature estimates for conformally compact Einstein manifolds with large renormalized volume. The major part of this paper is the study of how a property of the conformal infinity influences the geometry of the interior of a conformally compact Einstein manifold. Specifically we are interested in conformally compact Einstein manifolds with conformal infinity whose Yamabe invariant is close to that of the round sphere. Based on the approach initiated by Dutta and Javaheri we present a complete proof of the relative volume inequality \[ ( Y ( ∂ X , [ g ^ ] ) Y ( S n − 1 , [ g S ] ) ) n − 1 2 ≤ V o l ( ∂ B g + ( p , t ) ) V o l ( ∂ B g H ( 0 , t ) ) ≤ V o l ( B g + ( p , t ) ) V o l ( B g H ( 0 , t ) ) ≤ 1 , \left (\frac {Y(\partial X, [\hat {g}])}{Y(\mathbb {S}^{n-1}, [g_{\mathbb {S}}])}\right )^{\frac {n-1}{2}}\leq \frac {Vol(\partial B_{g^+}(p, t))} {Vol(\partial B_{g_{\mathbb {H}}}(0, t))} \leq \frac {Vol(B_{g^+}(p, t))} {Vol(B_{g_{\mathbb {H}}}(0, t))}\leq 1, \] for conformally compact Einstein manifolds. This leads not only to the complete proof of the rigidity theorem for conformally compact Einstein manifolds in arbitrary dimension without spin assumption but also a new curvature pinching estimate for conformally compact Einstein manifolds with conformal infinities having large Yamabe invariant. We also derive curvature estimates for such manifolds.

Published

2017

2. On Strominger Kähler-like manifolds with degenerate torsion

Author

Yau, Shing-Tung, Zhao, Quanting, and Zheng, Fangyang

Subjects

Differential Geometry (math.DG), Mathematics::Complex Variables, Applied Mathematics, General Mathematics, FOS: Mathematics, Mathematics::Differential Geometry, Mathematics::Symplectic Geometry

Abstract

In this paper, we study a special type of compact Hermitian manifolds that are Strominger Kähler-like, or SKL for short. This condition means that the Strominger connection (also known as Bismut connection) is Kähler-like, in the sense that its curvature tensor obeys all the symmetries of the curvature of a Kähler manifold. Previously, we have shown that any SKL manifold ( M n , g ) (M^n,g) is always pluriclosed, and when the manifold is compact and g g is not Kähler, it cannot admit any balanced or strongly Gauduchon (in the sense of Popovici) metric. Also, when n = 2 n=2 , the SKL condition is equivalent to the Vaisman condition. In this paper, we give a classification for compact non-Kähler SKL manifolds in dimension 3 3 and those with degenerate torsion in higher dimensions. We also present some properties about SKL manifolds in general dimensions, for instance, given any compact non-Kähler SKL manifold, its Kähler form represents a non-trivial Aeppli cohomology class, the metric can never be locally conformal Kähler when n ≥ 3 n\geq 3 , and the manifold does not admit any Hermitian symplectic metric.

Published

2023

3. On the ‘definability of definable’ problem of Alfred Tarski, Part II

Author

Vladimir Kanovei and Vassily Lyubetsky

Subjects

Applied Mathematics, General Mathematics

Abstract

Alfred Tarski [J. Symbolic Logic 13 (1948), pp. 107–111] defined D p m \mathbf {D}_{pm} to be the set of all sets of type p p , type-theoretically definable by parameterfree formulas of type ≤ m {\le m} , and asked whether it is true that D 1 m ∈ D 2 m \mathbf {D}_{1m}\in \mathbf {D}_{2m} for m ≥ 1 m\ge 1 . Tarski noted that the negative solution is consistent because the axiom of constructibility V = L \mathbf {V}=\mathbf {L} implies D 1 m ∉ D 2 m \mathbf {D}_{1m}\notin \mathbf {D}_{2m} for all m ≥ 1 m\ge 1 , and he left the consistency of the positive solution as a major open problem. This was solved in our recent paper [Mathematics 8 (2020), pp. 1–36], where it is established that for any m ≥ 1 m\ge 1 there is a generic extension of L \mathbf {L} , the constructible universe, in which it is true that D 1 m ∈ D 2 m \mathbf {D}_{1m}\in \mathbf {D}_{2m} . In continuation of this research, we prove here that Tarski’s sentences D 1 m ∈ D 2 m \mathbf {D}_{1m}\in \mathbf {D}_{2m} are not only consistent, but also independent of each other, in the sense that for any set Y ⊆ ω ∖ { 0 } Y\subseteq \omega \smallsetminus \{0\} in L \mathbf {L} there is a generic extension of L \mathbf {L} in which it is true that D 1 m ∈ D 2 m \mathbf {D}_{1m}\in \mathbf {D}_{2m} holds for all m ∈ Y m\in Y but fails for all m ≥ 1 m\ge 1 , m ∉ Y m\notin Y . This gives a full and conclusive solution of the Tarski problem. The other main result of this paper is the consistency of D 1 ∈ D 2 \mathbf {D}_{1}\in \mathbf {D}_{2} via another generic extension of L \mathbf {L} , where D p = ⋃ m D p m \mathbf {D}_{p}=\bigcup _m\mathbf {D}_{pm} , the set of all sets of type p p , type-theoretically definable by formulas of any type. Our methods are based on almost-disjoint forcing of Jensen and Solovay [Some applications of almost disjoint sets, North-Holland, Amsterdam, 1970, pp. 84–104].

Published

2022

4. The geometry of diagonal groups

Author

Peter J. Cameron, Cheryl E. Praeger, Csaba Schneider, R. A. Bailey, University of St Andrews. Pure Mathematics, University of St Andrews. Centre for Interdisciplinary Research in Computational Algebra, and University of St Andrews. Statistics

Subjects

Mathematics(all), South china, Primitive permutation group, General Mathematics, Diagonal group, T-NDAS, Library science, Group Theory (math.GR), O'Nan-Scott Theorem, 01 natural sciences, Hospitality, FOS: Mathematics, NCAD, Mathematics - Combinatorics, QA Mathematics, 0101 mathematics, Diagonal semilattice, QA, Cartesian lattice, Mathematics, business.industry, 20B05, Applied Mathematics, 010102 general mathematics, Latin square, Semilattice, Latin cube, 010101 applied mathematics, Hamming graph, Research council, Diagonal graph, Combinatorics (math.CO), business, Mathematics - Group Theory, Partition

Abstract

Part of the work was done while the authors were visiting the South China University of Science and Technology (SUSTech), Shenzhen, in 2018, and we are grateful (in particular to Professor Cai Heng Li) for the hospitality that we received.The authors would like to thank the Isaac Newton Institute for Mathematical Sciences, Cambridge, for support and hospitality during the programme Groups, representations and applications: new perspectives (supported by EPSRC grant no.EP/R014604/1), where further work on this paper was undertaken. In particular we acknowledge a Simons Fellowship (Cameron) and a Kirk Distinguished Visiting Fellowship (Praeger) during this programme. Schneider thanks the Centre for the Mathematics of Symmetry and Computation of The University of Western Australia and Australian Research Council Discovery Grant DP160102323 for hosting his visit in 2017 and acknowledges the support of the CNPq projects Produtividade em Pesquisa (project no.: 308212/2019-3) and Universal (project no.:421624/2018-3). Diagonal groups are one of the classes of finite primitive permutation groups occurring in the conclusion of the O'Nan-Scott theorem. Several of the other classes have been described as the automorphism groups of geometric or combinatorial structures such as affine spaces or Cartesian decompositions, but such structures for diagonal groups have not been studied in general. The main purpose of this paper is to describe and characterise such structures, which we call diagonal semilattices. Unlike the diagonal groups in the O'Nan-Scott theorem, which are defined over finite characteristically simple groups, our construction works over arbitrary groups, finite or infinite. A diagonal semilattice depends on a dimension m and a group T. For m=2, it is a Latin square, the Cayley table of T, though in fact any Latin square satisfies our combinatorial axioms. However, for m≥3, the group T emerges naturally and uniquely from the axioms. (The situation somewhat resembles projective geometry, where projective planes exist in great profusion but higher-dimensional structures are coordinatised by an algebraic object, a division ring.) A diagonal semilattice is contained in the partition lattice on a set Ω, and we provide an introduction to the calculus of partitions. Many of the concepts and constructions come from experimental design in statistics. We also determine when a diagonal group can be primitive, or quasiprimitive (these conditions turn out to be equivalent for diagonal groups). Associated with the diagonal semilattice is a graph, the diagonal graph, which has the same automorphism group as the diagonal semilattice except in four small cases with m

Published

2022

5. Stability of transition semigroups and applications to parabolic equations

Author

Moritz Gerlach, Jochen Glück, and Markus Kunze

Subjects

Mathematics - Functional Analysis, Mathematics - Analysis of PDEs, 47D07, 60J35, 35K15, Applied Mathematics, General Mathematics, Probability (math.PR), FOS: Mathematics, Mathematics - Probability, Functional Analysis (math.FA), Analysis of PDEs (math.AP)

Abstract

The paper deals with the long-term behavior of positive operator semigroups on spaces of bounded functions and of signed measures, which have applications to parabolic equations with unbounded coefficients and to stochastic analysis. The main results are a Tauberian type theorem characterizing the convergence to equilibrium of strongly Feller semigroups and a generalization of a classical convergence theorem of Doob. None of these results requires any kind of time regularity of the semigroup., Comment: 25 pages. This article originally emerged from a subsection of arXiv:1705.01587v1 that was split into a separate paper. The final results in the present paper are, however, stronger and more general than those from the removed subsection of arXiv:1705.01587v1. This is version 4; various changes in the presentation compared to v3

Published

2022

6. Gleason parts and point derivations for uniform algebras with dense invertible group II

Author

Izzo, Alexander J.

Subjects

Mathematics - Functional Analysis, Mathematics - Complex Variables, Applied Mathematics, General Mathematics, FOS: Mathematics, Complex Variables (math.CV), 46J10, 46J15, 32E20, 32A65, 30H50, Functional Analysis (math.FA)

Abstract

Due to the omission of a hypothesis from an elementary lemma in the author's paper "Gleason parts and point derivations for uniform algebras with dense invertible group", some of the proofs presented in that paper are flawed. We prove here that nevertheless, all of the results in that paper, with the exception of the one misstated lemma, are correct. In the process, we strengthen slightly some of the results of that paper., Comment: arXiv admin note: text overlap with arXiv:1606.05920

Published

2021

7. Integration of modules – II: Exponentials

Author

Matthew Westaway and Dmitriy Rumynin

Subjects

Applied Mathematics, General Mathematics, Restricted representation, Representation (systemics), Group Theory (math.GR), Mathematics - Rings and Algebras, Representation theory, Exponential function, Algebra, Rings and Algebras (math.RA), Algebraic group, Lie algebra, FOS: Mathematics, 20G05 (primary), 17B45 (secondary), Representation Theory (math.RT), QA, Mathematics - Group Theory, Mathematics - Representation Theory, Group theory, Mathematics

Abstract

We continue our exploration of various approaches to integration of representations from a Lie algebra $\mbox{Lie} (G)$ to an algebraic group $G$ in positive characteristic. In the present paper we concentrate on an approach exploiting exponentials. This approach works well for over-restricted representations, introduced in this paper, and takes no note of $G$-stability., Accepted by Transactions of the AMS. This paper is split off the earlier versions (1, 2 and 3) of arXiv:1708.06620. Some of the statements in these versions of arXiv:1708.06620 contain mistakes corrected here. Version 2 of this paper: close to the accepted version by the journal, minor improvements, compared to Version 1

Published

2021

8. An improvement on Furstenberg’s intersection problem

Author

Han Yu

Subjects

Combinatorics, Intersection, Applied Mathematics, General Mathematics, Bounded function, 010102 general mathematics, Dimension (graph theory), Zero (complex analysis), 0101 mathematics, Invariant (mathematics), Dynamical system (definition), 01 natural sciences, Mathematics

Abstract

In this paper, we study a problem posed by Furstenberg on intersections between × 2 , × 3 \times 2, \times 3 invariant sets. We present here a direct geometrical counting argument to revisit a theorem of Wu and Shmerkin. This argument can be used to obtain further improvements. For example, we show that if A 2 , A 3 ⊂ [ 0 , 1 ] A_2,A_3\subset [0,1] are closed and × 2 , × 3 \times 2, \times 3 invariant respectively, assuming that dim ⁡ A 2 + dim ⁡ A 3 > 1 \dim A_2+\dim A_3>1 then A 2 ∩ ( u A 3 + v ) A_2\cap (uA_3+v) is sparse (defined in this paper) and has box dimension zero uniformly with respect to the real parameters u , v u,v such that u u and u − 1 u^{-1} are both bounded away from 0 0 .

Published

2021

9. Hausdorff dimension of non-conical limit sets

Author

Kapovich, M and Liu, B

Subjects

Hausdorff dimension, non-conical limit set, geometric infiniteness, math.GR, math.DG, math.GT, General Mathematics, Pure Mathematics, Applied Mathematics

Abstract

Geometrically infinite Kleinian groups have non-conical limit sets with the cardinality of the continuum. In this paper, we construct a geometrically infinite Fuchsian group such that the Hausdorff dimension of the non-conical limit set equals zero. For finitely generated, geometrically infinite Kleinian groups, we prove that the Hausdorff dimension of the non-conical limit set is positive.

Published

2020

10. Betti and Hodge numbers of configuration spaces of a punctured elliptic curve from its zeta functions

Author

Cheong, Gilyoung and Huang, Yifeng

Subjects

Mathematics - Algebraic Geometry, 14F45, Mathematics - Number Theory, Applied Mathematics, General Mathematics, FOS: Mathematics, Mathematics - Combinatorics, Algebraic Topology (math.AT), Mathematics - Algebraic Topology, Combinatorics (math.CO), Number Theory (math.NT), Algebraic Geometry (math.AG)

Abstract

Given an elliptic curve $E$ defined over $\mathbb{C}$, let $E^{\times}$ be an open subset of $E$ obtained by removing a point. In this paper, we show that the $i$-th Betti number of the unordered configuration space $\mathrm{Conf}^{n}(E^{\times})$ of $n$ points on $E^{\times}$ appears as a coefficient of an explicit rational function in two variables. We also compute its Hodge numbers as coefficients of another explicit rational function in four variables. Our result is interesting because these rational functions resemble the generating function of the $\mathbb{F}_{q}$-point counts of $\mathrm{Conf}^{n}(E^{\times})$, which can be obtained from the zeta function of $E$ over a finite field $\mathbb{F}_{q}$. We show that the mixed Hodge structure of the $i$-th singular cohomology group $H^{i}(\mathrm{Conf}^{n}(E^{\times}))$ with complex coefficients is pure of weight $w(i)$, an explicit integer we provide in this paper. This purity statement implies our main result about the Betti numbers and the Hodge numbers. Our proof uses Totaro's spectral sequence computation that describes the weight filtration of the mixed Hodge structure on $H^{i}(\mathrm{Conf}^{n}(E^{\times}))$., Comment: 19 pages

Published

2022

11. Displacements of automorphisms of free groups I: Displacement functions, minpoints and train tracks

Author

Armando Martino, Stefano Francaviglia, Francaviglia, Stefano, and Martino, Armando

Subjects

Outer space, conjugacy problem, automorphisms of free groups, graphs, Pure mathematics, Applied Mathematics, General Mathematics, 010102 general mathematics, Spectrum (functional analysis), Group Theory (math.GR), Train track map, Automorphism, Lipschitz continuity, 01 natural sciences, Convexity, Free product, Metric (mathematics), FOS: Mathematics, 20E06, 20E36, 20E08, 0101 mathematics, Invariant (mathematics), Mathematics - Group Theory, Mathematics

Abstract

This is the first of two papers in which we investigate the properties of the displacement functions of automorphisms of free groups (more generally, free products) on Culler-Vogtmann Outer space and its simplicial bordification - the free splitting complex - with respect to the Lipschitz metric. The theory for irreducible automorphisms being well-developed, we concentrate on the reducible case. Since we deal with the bordification, we develop all the needed tools in the more general setting of deformation spaces, and their associated free splitting complexes. In the present paper we study the local properties of the displacement function. In particular, we study its convexity properties and the behaviour at bordification points, by geometrically characterising its continuity-points. We prove that the global-simplex-displacement spectrum of $Aut(F_n)$ is a well-ordered subset of $\mathbb R$, this being helpful for algorithmic purposes. We introduce a weaker notion of train tracks, which we call {\em partial train tracks} (which coincides with the usual one for irreducible automorphisms) and we prove that, for any automorphism, points of minimal displacement - minpoints - coincide with the marked metric graphs that support partial train tracks. We show that any automorphism, reducible or not, has a partial train track (hence a minpoint) either in the outer space or its bordification. We show that, given an automorphism, any of its invariant free factors is seen in a partial train track map. In a subsequent paper we will prove that level sets of the displacement functions are connected, and we will apply that result to solve certain decision problems., 50 pages. Originally part of arXiv:1703.09945 . We decided to split that paper following the recommendations of a referee. Updated subsequent to acceptance by Transactions of the American Mathematical Society

Published

2021

12. The structure and free resolutions of the symbolic powers of star configurations of hypersurfaces

Author

Paolo Mantero

Subjects

Monomial, Pure mathematics, Mathematics::Commutative Algebra, Betti number, Applied Mathematics, General Mathematics, 010102 general mathematics, Structure (category theory), Algebraic geometry, Star (graph theory), Mathematics - Commutative Algebra, Commutative Algebra (math.AC), 01 natural sciences, Representation theory, Mathematics - Algebraic Geometry, FOS: Mathematics, Young tableau, 0101 mathematics, Commutative algebra, Algebraic Geometry (math.AG), Mathematics

Abstract

Star configurations of points are configurations with known (and conjectured) extremal behaviors among all configurations of points in $\mathbb P_k^n$; additional interest come from their rich structure, which allows them to be studied using tools from algebraic geometry, combinatorics, commutative algebra and representation theory. In the present paper we investigate the more general problem of determining the structure of symbolic powers of a wide generalization of star configurations of points (introduced by Geramita, Harbourne, Migliore and Nagel) called star configurations of hypersurfaces in $\mathbb P_k^n$. Here (1) we provide explicit minimal generating sets of the symbolic powers $I^{(m)}$ of these ideals $I$, (2) we introduce a notion of $\delta$-c.i. quotients, which generalize ideals with linear quotients, and show that $I^{(m)}$ have $\delta$-c.i. quotients, (3) we show that the shape of the Betti tables of these symbolic powers is determined by certain "Koszul" strands and we prove that a little bit more than the bottom half of the Betti table has a regular, almost hypnotic, pattern, and (4) we provide a closed formula for all the graded Betti numbers in these strands. As a special case of (2) we deduce that symbolic powers of ideals of star configurations of points have linear quotients. We also improve and extend results by Galetto, Geramita, Shin and Van Tuyl, and provide explicit new general formulas for the minimal number of generators and the symbolic defects of star configurations. Finally, inspired by Young tableaux, we introduce a technical tool which may be of independent interest: it is a "canonical" way of writing any monomial in any given set of polynomials. Our methods are characteristic--free., Comment: Final revision (original paper was accepted for publication in Trans. Amer. Math. Soc.)

Published

2020

13. Extremal growth of Betti numbers and trivial vanishing of (co)homology

Author

Jonathan Montaño and Justin Lyle

Subjects

Pure mathematics, Conjecture, Mathematics::Commutative Algebra, Betti number, Applied Mathematics, General Mathematics, 010102 general mathematics, Local ring, Homology (mathematics), Commutative Algebra (math.AC), Mathematics - Commutative Algebra, 13D07, 13D02, 13C14, 13H10, 13D40, 01 natural sciences, Injective function, FOS: Mathematics, 0101 mathematics, Mathematics

Abstract

A Cohen-Macaulay local ring $R$ satisfies trivial vanishing if $\operatorname{Tor}_i^R(M,N)=0$ for all large $i$ implies $M$ or $N$ has finite projective dimension. If $R$ satisfies trivial vanishing then we also have that $\operatorname{Ext}^i_R(M,N)=0$ for all large $i$ implies $M$ has finite projective dimension or $N$ has finite injective dimension. In this paper, we establish obstructions for the failure of trivial vanishing in terms of the asymptotic growth of the Betti and Bass numbers of the modules involved. These, together with a result of Gasharov and Peeva, provide sufficient conditions for $R$ to satisfy trivial vanishing; we provide sharpened conditions when $R$ is generalized Golod. Our methods allow us to settle the Auslander-Reiten conjecture in several new cases. In the last part of the paper, we provide criteria for the Gorenstein property based on consecutive vanishing of Ext. The latter results improve similar statements due to Ulrich, Hanes-Huneke, and Jorgensen-Leuschke., to appear in Trans. Amer. Math. Soc

Published

2020

14. Corrigendum to 'Strongly self-absorbing 𝐶*-dynamical systems'

Author

Gábor Szabó

Subjects

Classical mechanics, Dynamical systems theory, Applied Mathematics, General Mathematics, Mathematics

Abstract

We correct a mistake that appeared in the first section of the original article, which appeared in Tran. Amer. Math. Soc. 370 (2018), 99–130. Namely, Corollary 1.16 was false as stated and was subsequently used in later proofs in the paper. In this note it is argued that all the relevant statements after Corollary 1.16 can be saved with at most minor modifications. In particular, all the main results of the original paper remain valid as stated, but some intermediate claims are slightly modified or proved more directly without Corollary 1.16.

Published

2020

15. Flow equivalence of G-SFTs

Author

Toke Meier Carlsen, Søren Eilers, and Mike Boyle

Subjects

Pure mathematics, Finite group, Applied Mathematics, General Mathematics, 010102 general mathematics, MathematicsofComputing_GENERAL, Dynamical Systems (math.DS), 01 natural sciences, Matrix (mathematics), Group action, Flow (mathematics), FOS: Mathematics, Equivariant map, Mathematics - Dynamical Systems, 0101 mathematics, Connection (algebraic framework), Equivalence (measure theory), Group ring, Mathematics

Abstract

In this paper, a G-shift of finite type (G-SFT) is a shift of finite type together with a free continuous shift-commuting action by a finite group G. We reduce the classification of G-SFTs up to equivariant flow equivalence to an algebraic classification of a class of poset-blocked matrices over the integral group ring of G. For a special case of two irreducible components with G$=\mathbb Z_2$, we compute explicit complete invariants. We relate our matrix structures to the Adler-Kitchens-Marcus group actions approach. We give examples of G-SFT applications, including a new connection to involutions of cellular automata., The paper has been augmented considerably and the second version is now 81 pages long. This version has been accepted for publication in Transactions of the American Mathematical Society

Published

2020

16. Constructing hyperelliptic curves with surjective Galois representations

Author

Samuele Anni, Vladimir Dokchitser, Institut de Mathématiques de Marseille (I2M), and Aix Marseille Université (AMU)-École Centrale de Marseille (ECM)-Centre National de la Recherche Scientifique (CNRS)

Subjects

11F80 (Primary), 12F12, 11G10, 11G30 (Secondary), Symplectic group, Mathematics - Number Theory, Degree (graph theory), Inverse Galois problem, Galois representations, Mathematics::Number Theory, Applied Mathematics, General Mathematics, Image (category theory), Galois module, [MATH.MATH-NT]Mathematics [math]/Number Theory [math.NT], Combinatorics, hyperelliptic curves, inverse Galois problem, Integer, Abelian varieties, Goldbach’s conjecture, FOS: Mathematics, Number Theory (math.NT), Monic polynomial, Mathematics, Symplectic geometry

Abstract

In this paper we show how to explicitly write down equations of hyperelliptic curves over Q such that for all odd primes l the image of the mod l Galois representation is the general symplectic group. The proof relies on understanding the action of inertia groups on the l-torsion of the Jacobian, including at primes where the Jacobian has non-semistable reduction. We also give a framework for systematically dealing with primitivity of symplectic mod l Galois representations. The main result of the paper is the following. Suppose n=2g+2 is an even integer that can be written as a sum of two primes in two different ways, with none of the primes being the largest primes less than n (this hypothesis appears to hold for all g different from 0,1,2,3,4,5,7 and 13). Then there is an explicit integer N and an explicit monic polynomial $f_0(x)\in \mathbb{Z}[x]$ of degree n, such that the Jacobian $J$ of every curve of the form $y^2=f(x)$ has $Gal(\mathbb{Q}(J[l])/\mathbb{Q})\cong GSp_{2g}(\mathbb{F}_l)$ for all odd primes l and $Gal(\mathbb{Q}(J[2])/\mathbb{Q})\cong S_{2g+2}$, whenever $f(x)\in\mathbb{Z}[x]$ is monic with $f(x)\equiv f_0(x) \bmod{N}$ and with no roots of multiplicity greater than $2$ in $\overline{\mathbb{F}}_p$ for any p not dividing N., Comment: 24 pages, minor corrections

Published

2019

17. Ultrametric properties for valuation spaces of normal surface singularities

Author

Evelia R. García Barroso, Patrick Popescu-Pampu, Pedro Daniel González Pérez, and Matteo Ruggiero

Subjects

Applied Mathematics, General Mathematics, 010102 general mathematics, MathematicsofComputing_GENERAL, Block (permutation group theory), 14B05, 14J17, 32S25, Intersection number, Function (mathematics), 01 natural sciences, Linear subspace, Combinatorics, Mathematics - Algebraic Geometry, Tree (descriptive set theory), Singularity, FOS: Mathematics, 0101 mathematics, Normal surface, Algebraic Geometry (math.AG), Ultrametric space, Mathematics

Abstract

Let $L$ be a fixed branch -- that is, an irreducible germ of curve -- on a normal surface singularity $X$. If $A,B$ are two other branches, define $u_L(A,B) := \dfrac{(L \cdot A) \: (L \cdot B)}{A \cdot B}$, where $A \cdot B$ denotes the intersection number of $A$ and $B$. Call $X$ arborescent if all the dual graphs of its resolutions are trees. In a previous paper, the first three authors extended a 1985 theorem of P{\l}oski by proving that whenever $X$ is arborescent, the function $u_L$ is an ultrametric on the set of branches on $X$ different from $L$. In the present paper we prove that, conversely, if $u_L$ is an ultrametric, then $X$ is arborescent. We also show that for any normal surface singularity, one may find arbitrarily large sets of branches on $X$, characterized uniquely in terms of the topology of the resolutions of their sum, in restriction to which $u_L$ is still an ultrametric. Moreover, we describe the associated tree in terms of the dual graphs of such resolutions. Then we extend our setting by allowing $L$ to be an arbitrary semivaluation on $X$ and by defining $u_L$ on a suitable space of semivaluations. We prove that any such function is again an ultrametric if and only if $X$ is arborescent, and without any restriction on $X$ we exhibit special subspaces of the space of semivaluations in restriction to which $u_L$ is still an ultrametric., Comment: 50 pages, 14 figures. Final version

Published

2019

18. The structure monoid and algebra of a non-degenerate set-theoretic solution of the Yang–Baxter equation

Author

Łukasz Kubat, Eric Jespers, Arne Van Antwerpen, Mathematics, Algebra, and Faculty of Sciences and Bioengineering Sciences

Subjects

Monoid, Semidirect product, Yang–Baxter equation, Applied Mathematics, General Mathematics, Prime ideal, 010102 general mathematics, Subalgebra, Semiprime, Normal extension, Mathematics - Rings and Algebras, Jacobson radical, 01 natural sciences, Algebra, Rings and Algebras (math.RA), FOS: Mathematics, 0101 mathematics, Mathematics

Abstract

For a finite involutive non-degenerate solution $(X,r)$ of the Yang--Baxter equation it is known that the structure monoid $M(X,r)$ is a monoid of I-type, and the structure algebra $K[M(X,r)]$ over a field $K$ share many properties with commutative polynomial algebras, in particular, it is a Noetherian PI-domain that has finite Gelfand--Kirillov dimension. In this paper we deal with arbitrary finite (left) non-degenerate solutions. Although the structure of both the monoid $M(X,r)$ and the algebra $K[M(X,r)]$ is much more complicated than in the involutive case, we provide some deep insights. In this general context, using a realization of Lebed and Vendramin of $M(X,r)$ as a regular submonoid in the semidirect product $A(X,r)\rtimes\mathrm{Sym}(X)$, where $A(X,r)$ is the structure monoid of the rack solution associated to $(X,r)$, we prove that $K[M(X,r)]$ is a module finite normal extension of a commutative affine subalgebra. In particular, $K[M(X,r)]$ is a Noetherian PI-algebra of finite Gelfand--Kirillov dimension bounded by $|X|$. We also characterize, in ring-theoretical terms of $K[M(X,r)]$, when $(X,r)$ is an involutive solution. This characterization provides, in particular, a positive answer to the Gateva-Ivanova conjecture concerning cancellativity of $M(X,r)$. These results allow us to control the prime spectrum of the algebra $K[M(X,r)]$ and to describe the Jacobson radical and prime radical of $K[M(X,r)]$. Finally, we give a matrix-type representation of the algebra $K[M(X,r)]/P$ for each prime ideal $P$ of $K[M(X,r)]$. As a consequence, we show that if $K[M(X,r)]$ is semiprime then there exist finitely many finitely generated abelian-by-finite groups, $G_1,\dotsc,G_m$, each being the group of quotients of a cancellative subsemigroup of $M(X,r)$ such that the algebra $K[M(X,r)]$ embeds into $\mathrm{M}_{v_1}(K[G_1])\times\dotsb\times \mathrm{M}_{v_m}(K[G_m])$., A subtle mistake in the proof of Theorem 4.4 has been corrected (will appear in a corrigendum et addendum, TAMS). In the latter paper we also strengthen some of the results by removing the "square free'' condition in Section 5 and in this paper we also prove new homological equivalences in Theorem 4.4

Published

2019

19. Good coverings of Alexandrov spaces

Author

Takao Yamaguchi and Ayato Mitsuishi

Subjects

Pure mathematics, Applied Mathematics, General Mathematics, Homotopy, 010102 general mathematics, Stability (learning theory), Fibration, Metric Geometry (math.MG), Type (model theory), Curvature, Space (mathematics), Mathematics::Algebraic Topology, 01 natural sciences, 53C20, 53C23, Mathematics - Metric Geometry, Mathematics::Category Theory, Bounded function, FOS: Mathematics, Mathematics::Differential Geometry, Isomorphism, 0101 mathematics, Mathematics

Abstract

In the present paper, we define a notion of good coverings of Alexandrov spaces with curvature bounded below, and prove that every Alexandrov space admits such a good covering and that it has the same homotopy type as the nerve of the good covering. We also prove the stability of the isomorphism classes of the nerves of good coverings in the non-collapsing case. In the proof, we need a version of Perelman's fibration theorem, which is also proved in this paper., Minor change basically on the proof of Theorem 1.2 in Section 5

Published

2019

20. On the local time process of a skew Brownian motion

Author

Andrei N. Borodin and Paavo Salminen

Subjects

Discontinuity (linguistics), Distribution (mathematics), Lebesgue measure, Applied Mathematics, General Mathematics, Local time, Mathematical analysis, Skew, Measure (mathematics), Brownian motion, Exponential function, Mathematics

Abstract

We derive a Ray–Knight type theorem for the local time process (in the space variable) of a skew Brownian motion up to an independent exponential time. It is known that the local time seen as a density of the occupation measure and taken with respect to the Lebesgue measure has a discontinuity at the skew point (in our case at zero), but the local time taken with respect to the speed measure is continuous. In this paper we discuss this discrepancy by characterizing the dynamics of the local time process in both of these cases. The Ray–Knight type theorem is applied to study integral functionals of the local time process of the skew Brownian motion. In particular, we determine the distribution of the maximum of the local time process up to a fixed time, which can be seen as the main new result of the paper.

Published

2019

21. An 𝐿^{𝑝} theory of sparse graph convergence I: Limits, sparse random graph models, and power law distributions

Author

Jennifer Chayes, Yufei Zhao, Henry Cohn, and Christian Borgs

Subjects

Random graph, Discrete mathematics, Dense graph, Applied Mathematics, General Mathematics, Probability (math.PR), 010102 general mathematics, 01 natural sciences, Power law, Limit theory, FOS: Mathematics, Mathematics - Combinatorics, Combinatorics (math.CO), 0101 mathematics, Equivalence (formal languages), Mathematics - Probability, Mathematics

Abstract

We introduce and develop a theory of limits for sequences of sparse graphs based on $L^p$ graphons, which generalizes both the existing $L^\infty$ theory of dense graph limits and its extension by Bollob\'as and Riordan to sparse graphs without dense spots. In doing so, we replace the no dense spots hypothesis with weaker assumptions, which allow us to analyze graphs with power law degree distributions. This gives the first broadly applicable limit theory for sparse graphs with unbounded average degrees. In this paper, we lay the foundations of the $L^p$ theory of graphons, characterize convergence, and develop corresponding random graph models, while we prove the equivalence of several alternative metrics in a companion paper., Comment: 44 pages

Published

2019

22. On symmetric linear diffusions

Author

Liping Li and Jiangang Ying

Subjects

Discrete mathematics, Representation theorem, Dirichlet form, Applied Mathematics, General Mathematics, 010102 general mathematics, Structure (category theory), Disjoint sets, 01 natural sciences, Dirichlet distribution, 010104 statistics & probability, symbols.namesake, Closure (mathematics), symbols, Interval (graph theory), Countable set, 0101 mathematics, Mathematics

Abstract

The main purpose of this paper is to explore the structure of local and regular Dirichlet forms associated with symmetric one-dimensional diffusions, which are also called symmetric linear diffusions. Let ( E , F ) (\mathcal {E},\mathcal {F}) be a regular and local Dirichlet form on L 2 ( I , m ) L^2(I,m) , where I I is an interval and m m is a fully supported Radon measure on I I . We shall first present a complete representation for ( E , F ) (\mathcal {E},\mathcal {F}) , which shows that ( E , F ) (\mathcal {E},\mathcal {F}) lives on at most countable disjoint “effective" intervals with an “adapted" scale function on each interval, and any point outside these intervals is a trap of the one-dimensional diffusion. Furthermore, we shall give a necessary and sufficient condition for C c ∞ ( I ) C_c^\infty (I) being a special standard core of ( E , F ) (\mathcal {E},\mathcal {F}) and shall identify the closure of C c ∞ ( I ) C_c^\infty (I) in ( E , F ) (\mathcal {E},\mathcal {F}) when C c ∞ ( I ) C_c^\infty (I) is contained but not necessarily dense in F \mathcal {F} relative to the E 1 1 / 2 \mathcal {E}_1^{1/2} -norm. This paper is partly motivated by a result of Hamza’s that was stated in a theorem of Fukushima, Oshima, and Takeda’s and that provides a different point of view to this theorem. To illustrate our results, many examples are provided.

Published

2018

23. On period relations for automorphic 𝐿-functions I

Author

Fabian Januszewski

Subjects

Applied Mathematics, General Mathematics, 010102 general mathematics, 0103 physical sciences, Statistics, 010307 mathematical physics, 0101 mathematics, 01 natural sciences, Period (music), Mathematics

Abstract

This paper is the first in a series of two dedicated to the study of period relations of the type L ( 1 2 + k , Π ) ∈ ( 2 π i ) d ⋅ k Ω ( − 1 ) k \bf Q ( Π ) , 1 2 + k critical , \begin{equation*} L\Big (\frac {1}{2}+k,\Pi \Big )\;\in \;(2\pi i)^{d\cdot k}\Omega _{(-1)^k}\textrm {\bf Q}(\Pi ),\quad \frac {1}{2}+k\;\text {critical}, \end{equation*} for certain automorphic representations Π \Pi of a reductive group G . G. In this paper we discuss the case G = G L ( n + 1 ) × G L ( n ) . G=\mathrm {GL}(n+1)\times \mathrm {GL}(n). The case G = G L ( 2 n ) G=\mathrm {GL}(2n) is discussed in part two. Our method is representation theoretic and relies on the author’s recent results on global rational structures on automorphic representations. We show that the above period relations are intimately related to the field of definition of the global representation Π \Pi under consideration. The new period relations we prove are in accordance with Deligne’s Conjecture on special values of L L -functions, and the author expects this method to apply to other cases as well.

Published

2018

24. Wave front sets of reductive Lie group representations II

Author

Benjamin Harris

Subjects

Wavefront, Induced representation, Applied Mathematics, General Mathematics, Simple Lie group, 010102 general mathematics, Wave front set, Lie group, (g,K)-module, 01 natural sciences, Algebra, Representation of a Lie group, 0103 physical sciences, FOS: Mathematics, Tempered representation, 010307 mathematical physics, Representation Theory (math.RT), 0101 mathematics, Mathematics - Representation Theory, Mathematics

Abstract

In this paper it is shown that the wave front set of a direct integral of singular, irreducible representations of a real, reductive algebraic group is contained in the singular set. Combining this result with the results of the first paper in this series, the author obtains asymptotic results on the occurrence of tempered representations in induction and restriction problems for real, reductive algebraic groups., Accepted to Transactions of the American Mathematical Society

Published

2017

25. Gromov hyperbolicity, the Kobayashi metric, and $\mathbb {C}$-convex sets

Author

Andrew Zimmer

Subjects

Pure mathematics, Euclidean space, Applied Mathematics, General Mathematics, 010102 general mathematics, Dimension (graph theory), Regular polygon, Boundary (topology), Codimension, 01 natural sciences, Bounded function, 0103 physical sciences, 010307 mathematical physics, Affine transformation, Ball (mathematics), 0101 mathematics, Mathematics

Abstract

In this paper we study the global geometry of the Kobayashi metric on domains in complex Euclidean space. We are particularly interested in developing necessary and sufficient conditions for the Kobayashi metric to be Gromov hyperbolic. For general domains, it has been suggested that a non-trivial complex affine disk in the boundary is an obstruction to Gromov hyperbolicity. This is known to be the case when the set in question is convex. In this paper we first extend this result to $\mathbb{C}$-convex sets with $C^1$-smooth boundary. We will then show that some boundary regularity is necessary by producing in any dimension examples of open bounded $\mathbb{C}$-convex sets where the Kobayashi metric is Gromov hyperbolic but whose boundary contains a complex affine ball of complex codimension one.

Published

2017

26. Tame circle actions

Author

Jordan Watts and Susan Tolman

Subjects

Pure mathematics, Applied Mathematics, General Mathematics, 010102 general mathematics, Holomorphic function, Kähler manifold, Fixed point, 01 natural sciences, Mathematics - Symplectic Geometry, 0103 physical sciences, Symplectic category, Slice theorem, FOS: Mathematics, Symplectic Geometry (math.SG), 010307 mathematical physics, 53D20 (Primary) 53D05, 53B35 (Secondary), 0101 mathematics, Mathematics::Symplectic Geometry, Moment map, Symplectic manifold, Symplectic geometry, Mathematics

Abstract

In this paper, we consider Sjamaar's holomorphic slice theorem, the birational equivalence theorem of Guillemin and Sternberg, and a number of important standard constructions that work for Hamiltonian circle actions in both the symplectic category and the K\"ahler category: reduction, cutting, and blow-up. In each case, we show that the theory extends to Hamiltonian circle actions on complex manifolds with tamed symplectic forms. (At least, the theory extends if the fixed points are isolated.) Our main motivation for this paper is that the first author needs the machinery that we develop here to construct a non-Hamiltonian symplectic circle action on a closed, connected six-dimensional symplectic manifold with exactly 32 fixed points; this answers an open question in symplectic geometry. However, we also believe that the setting we work in is intrinsically interesting, and elucidates the key role played by the following fact: the moment image of $e^t \cdot x$ increases as $t \in \mathbb{R}$ increases., Comment: 25 pages

Published

2017

27. Differentiability of the conjugacy in the Hartman-Grobman Theorem

Author

Weinian Zhang, Kening Lu, and Wenmeng Zhang

Subjects

Bump function, 0209 industrial biotechnology, Pure mathematics, Applied Mathematics, General Mathematics, 010102 general mathematics, Mathematical analysis, Invariant manifold, 02 engineering and technology, 01 natural sciences, Hartman–Grobman theorem, 020901 industrial engineering & automation, Conjugacy class, Differentiable function, 0101 mathematics, Mathematics

Abstract

The classical Hartman-Grobman Theorem states that a smooth diffeomorphism F ( x ) F(x) near its hyperbolic fixed point x ¯ \bar x is topological conjugate to its linear part D F ( x ¯ ) DF(\bar x) by a local homeomorphism Φ ( x ) \Phi (x) . In general, this local homeomorphism is not smooth, not even Lipschitz continuous no matter how smooth F ( x ) F(x) is. A question is: Is this local homeomorphism differentiable at the fixed point? In a 2003 paper by Guysinsky, Hasselblatt and Rayskin, it is shown that for a C ∞ C^\infty diffeomorphism F ( x ) F(x) , the local homeomorphism indeed is differentiable at the fixed point. In this paper, we prove for a C 1 C^1 diffeomorphism F ( x ) F(x) with D F ( x ) DF(x) being α \alpha -Hölder continuous at the fixed point that the local homeomorphism Φ ( x ) \Phi (x) is differentiable at the fixed point. Here, α > 0 \alpha >0 depends on the bands of the spectrum of F ′ ( x ¯ ) F’(\bar x) for a diffeomorphism in a Banach space. We also give a counterexample showing that the regularity condition on F ( x ) F(x) cannot be lowered to C 1 C^1 .

Published

2017

28. Isoperimetric properties of the mean curvature flow

Author

Or Hershkovits

Subjects

Pure mathematics, Mean curvature flow, Mean curvature, Applied Mathematics, General Mathematics, 010102 general mathematics, Space (mathematics), 01 natural sciences, Upper and lower bounds, Geometric measure theory, 0103 physical sciences, Hausdorff measure, 010307 mathematical physics, 0101 mathematics, Isoperimetric inequality, Constant (mathematics), Mathematics

Abstract

In this paper we discuss a simple relation, which was previously missed, between the high co-dimensional isoperimetric problem of finding a filling with small volume to a given cycle and extinction estimates for singular, high co-dimensional, mean curvature flow. The utility of this viewpoint is first exemplified by two results which, once casted in the light of this relation, are almost self-evident. The first is a genuine, 5-line proof, for the isoperimetric inequality for k k -cycles in R n \mathbb {R}^n , with a constant differing from the optimal constant by a factor of only k \sqrt {k} , as opposed to a factor of k k k^k produced by all of the other soft methods. The second is a 3-line proof of a lower bound for extinction for arbitrary co-dimensional, singular, mean curvature flows starting from cycles, generalizing the main result of Giga and Yama-uchi (1993). We then turn to use the above-mentioned relation to prove a bound on the parabolic Hausdorff measure of the space-time track of high co-dimensional, singular, mean curvature flow starting from a cycle, in terms of the mass of that cycle. This bound is also reminiscent of a Michael-Simon isoperimetric inequality. To prove it, we are led to study the geometric measure theory of Euclidean rectifiable sets in parabolic space and prove a co-area formula in that setting. This formula, the proof of which occupies most of this paper, may be of independent interest.

Published

2017

29. On embedding certain partial orders into the P-points under Rudin-Keisler and Tukey reducibility

Author

Dilip Raghavan and Saharon Shelah

Subjects

Discrete mathematics, Applied Mathematics, General Mathematics, Boolean algebra (structure), 010102 general mathematics, Ultrafilter, Natural number, 0102 computer and information sciences, 01 natural sciences, Combinatorics, symbols.namesake, 010201 computation theory & mathematics, symbols, Embedding, Continuum (set theory), 0101 mathematics, Partially ordered set, Continuum hypothesis, Axiom, Mathematics

Abstract

The study of the global structure of ultrafilters on the natural numbers with respect to the quasi-orders of Rudin-Keisler and Rudin-Blass reducibility was initiated in the 1970s by Blass, Keisler, Kunen, and Rudin. In a 1973 paper Blass studied the special class of P-points under the quasi-ordering of Rudin-Keisler reducibility. He asked what partially ordered sets can be embedded into the P-points when the P-points are equipped with this ordering. This question is of most interest under some hypothesis that guarantees the existence of many P-points, such as Martin’s axiom for σ \sigma -centered posets. In his 1973 paper he showed under this assumption that both ω 1 {\omega }_{1} and the reals can be embedded. Analogous results were obtained later for the coarser notion of Tukey reducibility. We prove in this paper that Martin’s axiom for σ \sigma -centered posets implies that the Boolean algebra P ( ω ) / FIN \mathcal {P}(\omega ) / \operatorname {FIN} equipped with its natural partial order can be embedded into the P-points both under Rudin-Keisler and Tukey reducibility. Consequently, the continuum hypothesis implies that every partial order of size at most continuum embeds into the P-points under both notions of reducibility.

Published

2017

30. Stability, uniqueness and recurrence of generalized traveling waves in time heterogeneous media of ignition type

Author

Wenxian Shen and Zhongwei Shen

Subjects

Work (thermodynamics), Applied Mathematics, General Mathematics, 010102 general mathematics, Mathematical analysis, Monotonic function, Type (model theory), Space (mathematics), 01 natural sciences, Stability (probability), 010101 applied mathematics, Exponential growth, Uniqueness, 0101 mathematics, Exponential decay, Mathematics

Abstract

The present paper is devoted to the study of stability, uniqueness and recurrence of generalized traveling waves of reaction-diffusion equations in time heterogeneous media of ignition type, whose existence has been proven by the authors of the present paper in a previous work. It is first shown that generalized traveling waves exponentially attract wave-like initial data. Next, properties of generalized traveling waves, such as space monotonicity and exponential decay ahead of interface, are obtained. Uniqueness up to space translations of generalized traveling waves is then proven. Finally, it is shown that the wave profile of the unique generalized traveling wave is of the same recurrence as the media. In particular, if the media is time almost periodic, then so is the wave profile of the unique generalized traveling wave.

Published

2016

31. Derangements in subspace actions of finite classical groups

Author

Robert M. Guralnick and Jason Fulman

Subjects

Classical group, Applied Mathematics, General Mathematics, 010102 general mathematics, 0102 computer and information sciences, Codimension, 01 natural sciences, Combinatorics, Group of Lie type, 010201 computation theory & mathematics, Simple group, Bounded function, Classification of finite simple groups, CA-group, 0101 mathematics, Subspace topology, Mathematics

Abstract

This is the third in a series of papers in which we prove a conjecture of Boston and Shalev that the proportion of derangements (fixed point free elements) is bounded away from zero for transitive actions of finite simple groups on a set of size greater than one. This paper treats the case of primitive subspace actions. It is also shown that if the dimension and codimension of the subspace go to infinity, then the proportion of derangements goes to one. Similar results are proved for elements in finite classical groups in cosets of the simple group. The results in this paper have applications to probabilistic generation of finite simple groups and maps between varieties over finite fields.

Published

2016

32. Classification of tile digit sets as product-forms

Author

Chun-Kit Lai, Ka-Sing Lau, and Hui Rao

Subjects

Polynomial (hyperelastic model), Applied Mathematics, General Mathematics, 010102 general mathematics, Order (ring theory), 01 natural sciences, Prime (order theory), 010101 applied mathematics, Combinatorics, Matrix (mathematics), Tree (descriptive set theory), Integer, Product (mathematics), 0101 mathematics, Cyclotomic polynomial, Mathematics

Abstract

Let $A$ be an expanding matrix on ${\Bbb R}^s$ with integral entries. A fundamental question in the fractal tiling theory is to understand the structure of the digit set ${\mathcal D}\subset{\Bbb Z}^s$ so that the integral self-affine set $T(A,\mathcal D)$ is a translational tile on ${\Bbb R}^s$. In our previous paper, we classified such tile digit sets ${\mathcal D}\subset{\Bbb Z}$ by expressing the mask polynomial $P_{\mathcal D}$ into product of cyclotomic polynomials. In this paper, we first show that a tile digit set in ${\Bbb Z}^s$ must be an integer tile (i.e. ${\mathcal D}\oplus{\mathcal L} = {\Bbb Z}^s$ for some discrete set ${\mathcal L}$). This allows us to combine the technique of Coven and Meyerowitz on integer tiling on ${\Bbb R}^1$ together with our previous results to characterize explicitly all tile digit sets ${\mathcal D}\subset {\Bbb Z}$ with $A = p^{\alpha}q$ ($p, q$ distinct primes) as {\it modulo product-form} of some order, an advance of the previously known results for $A = p^\alpha$ and $pq$.

Published

2016

33. Ample group action on AS-regular algebras and noncommutative graded isolated singularities

Author

Izuru Mori and Kenta Ueyama

Subjects

Noetherian, Pure mathematics, Group (mathematics), Applied Mathematics, General Mathematics, Mathematics::Rings and Algebras, Quiver, Dimension (graph theory), Graded ring, Isolated singularity, Noncommutative geometry, Nabla symbol, Mathematics::Representation Theory, Mathematics

Abstract

In this paper, we introduce a notion of ampleness of a group action $G$ on a right noetherian graded algebra $A$, and show that it is strongly related to the notion of $A^G$ to be a graded isolated singularity introduced by the second author of this paper. Moreover, if $S$ is a noetherian AS-regular algebra and $G$ is a finite ample group acting on $S$, then we will show that ${\mathcal D}^b(\operatorname{tails} S^G)\cong {\cal D}^b(\operatorname{mod} \nabla S*G)$ where $\nabla S$ is the Beilinson algebra of $S$. We will also explicitly calculate a quiver $Q_{S, G}$ such that ${\mathcal D}^b(\operatorname{tails} S^G)\cong {\mathcal D}^b(\operatorname{mod} kQ_{S, G})$ when $S$ is of dimension 2.

Published

2015

34. Newton polyhedra and weighted oscillatory integrals with smooth phases

Author

Toshihiro Nose and Joe Kamimoto

Subjects

Weight function, Explicit formulae, Applied Mathematics, General Mathematics, Mathematical analysis, Resolution of singularities, Critical point (mathematics), Polyhedron, symbols.namesake, Newton fractal, symbols, Oscillatory integral, Asymptotic expansion, Mathematics

Abstract

In his seminal paper, A. N. Varchenko precisely investigates the leading term of the asymptotic expansion of an oscillatory integral with real analytic phase. He expresses the order of this term by means of the geometry of the Newton polyhedron of the phase. The purpose of this paper is to generalize and improve his result. We are especially interested in the cases that the phase is smooth and that the amplitude has a zero at a critical point of the phase. In order to exactly treat the latter case, a weight function is introduced in the amplitude. Our results show that the optimal rates of decay for weighted oscillatory integrals whose phases and weights are contained in a certain class of smooth functions, including the real analytic class, can be expressed by the Newton distance and multiplicity defined in terms of geometrical relationship of the Newton polyhedra of the phase and the weight. We also compute explicit formulae of the coefficient of the leading term of the asymptotic expansion in the weighted case. Our method is based on the resolution of singularities constructed by using the theory of toric varieties, which naturally extends the resolution of Varchenko. The properties of poles of local zeta functions, which are closely related to the behavior of oscillatory integrals, are also studied under the associated situation. The investigation of this paper improves on the earlier joint work with K. Cho.

Published

2015

35. Probabilistically nilpotent Hopf algebras

Author

Sara Westreich and Miriam Cohen

Subjects

Discrete mathematics, Pure mathematics, Ring (mathematics), Quantum group, Applied Mathematics, General Mathematics, Mathematics::Rings and Algebras, MathematicsofComputing_GENERAL, Commutator (electric), Quasitriangular Hopf algebra, Hopf algebra, law.invention, 16T05, Nilpotent, Invertible matrix, law, Mathematics::Quantum Algebra, Mathematics - Quantum Algebra, FOS: Mathematics, Quantum Algebra (math.QA), Nilpotent group, Mathematics::Representation Theory, Mathematics

Abstract

In this paper we investigate nilpotenct and probabilistically nilpotent Hopf algebras. We define nilpotency via a descending chain of commutators and give a criterion for nilpotency via a family of central invertible elements. These elements can be obtained from a commutator matrix A A which depends only on the Grothendieck ring of H . H. When H H is almost cocommutative we introduce a probabilistic method. We prove that every semisimple quasitriangular Hopf algebra is probabilistically nilpotent. In a sense we thereby answer the title of our paper Are we counting or measuring anything? by Yes, we are.

Published

2015

36. Bellman function for extremal problems in BMO

Author

Paata Ivanisvili, Vasily Vasyunin, Dmitriy M. Stolyarov, Nikolay N. Osipov, and Pavel B. Zatitskiy

Subjects

Large class, 42A05, 42B35, 49K20, 52A40, Applied Mathematics, General Mathematics, Mathematics::Analysis of PDEs, Function (mathematics), Mathematical proof, Space (mathematics), Mathematics - Analysis of PDEs, Mathematics - Classical Analysis and ODEs, Homogeneous, Classical Analysis and ODEs (math.CA), FOS: Mathematics, Applied mathematics, Boundary value problem, Analysis of PDEs (math.AP), Mathematics

Abstract

In this paper we develop the method of finding sharp estimates by using a Bellman function. In such a form the method appears in the proofs of the classical John--Nirenberg inequality and $L^p$ estimations of BMO functions. In the present paper we elaborate a method of solving the boundary value problem for the homogeneous Monge--Amp\`ere equation in a parabolic strip for sufficiently smooth boundary conditions. In such a way we have obtained an algorithm of constructing an exact Bellman function for a large class of integral functionals in the BMO space., Comment: 91 pages, 18 figures

Published

2015

37. The cone spanned by maximal Cohen-Macaulay modules and an application

Author

Kazuhiko Kurano and C. Y. Jean Chan

Subjects

Combinatorics, Noetherian, Discrete mathematics, Rational number, Primary ideal, Applied Mathematics, General Mathematics, Modulo, Local ring, Grothendieck group, Finitely-generated abelian group, Abelian group, Mathematics

Abstract

The aim of this paper is to define the notion of the Cohen- Macaulay cone of a Noetherian local domain R R and to present its applications to the theory of Hilbert-Kunz functions. It has been shown by the second author that with a mild condition on R R , the Grothendieck group G 0 ( R ) ¯ \overline {G_0(R)} of finitely generated R R -modules modulo numerical equivalence is a finitely generated torsion-free abelian group. The Cohen-Macaulay cone of R R is the cone in G 0 ( R ) ¯ R \overline {G_0(R)}_{\mathbb R} spanned by cycles represented by maximal Cohen-Macaulay modules. We study basic properties on the Cohen-Macaulay cone in this paper. As an application, various examples of Hilbert-Kunz functions in the polynomial type will be produced. Precisely, for any given integers ϵ i = 0 , ± 1 \epsilon _i = 0, \pm 1 ( d / 2 > i > d d/2 > i > d ), we shall construct a d d -dimensional Cohen-Macaulay local ring R R (of characteristic p p ) and a maximal primary ideal I I of R R such that the function ℓ R ( R / I [ p n ] ) \ell _R(R/I^{[p^n]}) is a polynomial in p n p^n of degree d d whose coefficient of ( p n ) i (p^n)^i is the product of ϵ i \epsilon _i and a positive rational number for d / 2 > i > d d/2 > i > d . The existence of such ring is proved by using Segre products to construct a Cohen-Macaulay ring such that the Chow group of the ring is of certain simplicity and that test modules exist for it.

Published

2015

38. Equidistribution in higher codimension for holomorphic endomorphisms of $\mathbb {P}^k$

Author

Taeyong Ahn

Subjects

Discrete mathematics, Endomorphism, Mathematics - Complex Variables, Mathematics::Complex Variables, Applied Mathematics, General Mathematics, Holomorphic function, Dynamical Systems (math.DS), Codimension, FOS: Mathematics, Computer Science::Symbolic Computation, Mathematics - Dynamical Systems, Complex Variables (math.CV), Mathematics

Abstract

In this paper, we discuss the equidistribution phenomena for holomorphic endomorphisms over $\mathbb{P}^k$ in the case of bidegree $(p,p)$ with $1, Comment: Corrected an error in the statement of the main theorem and readability has been improved. This paper is based on the work in arXiv:math/0703702 and arXiv:0901.3000 by other authors; for precise estimates, we go over the proofs with modification

Published

2015

39. Orthogonal symmetric affine Kac-Moody algebras

Author

Walter Freyn

Subjects

Symmetric algebra, Pure mathematics, Quantum affine algebra, Jordan algebra, Loop algebra, Applied Mathematics, General Mathematics, Clifford algebra, Kac–Moody algebra, Affine Lie algebra, Algebra, High Energy Physics::Theory, Mathematics::Quantum Algebra, Mathematics::Representation Theory, Generalized Kac–Moody algebra, Mathematics

Abstract

Riemannian symmetric spaces are fundamental objects in finite dimensional differential geometry. An important problem is the construction of symmetric spaces for generalizations of simple Lie groups, especially their closest infinite dimensional analogues, known as affine Kac-Moody groups. We solve this problem and construct affine Kac-Moody symmetric spaces in a series of several papers. This paper focuses on the algebraic side; more precisely, we introduce OSAKAs, the algebraic structures used to describe the connection between affine Kac-Moody symmetric spaces and affine Kac-Moody algebras and describe their classification.

Published

2015

40. Some Beurling–Fourier algebras on compact groups are operator algebras

Author

Mahya Ghandehari, Nico Spronk, Ebrahim Samei, and Hun Hee Lee

Subjects

Pure mathematics, Polynomial, Operator algebra, Fourier algebra, Group (mathematics), Applied Mathematics, General Mathematics, MathematicsofComputing_GENERAL, Order (group theory), Lie group, Maximal torus, Length function, Mathematics

Abstract

Let G G be a compact connected Lie group. The question of when a weighted Fourier algebra on G G is completely isomorphic to an operator algebra will be investigated in this paper. We will demonstrate that the dimension of the group plays an important role in the question. More precisely, we will get a positive answer to the question when we consider a polynomial type weight coming from a length function on G G with the order of growth strictly bigger than half of the dimension of the group. The case of S U ( n ) SU(n) will be examined, focusing more on the details including negative results. The proof for the positive directions depends on a non-commutative version of the Littlewood multiplier theory, which we will develop in this paper, and the negative directions will be taken care of by restricting to a maximal torus.

Published

2015

41. Quasihyperbolic metric and Quasisymmetric mappings in metric spaces

Author

Xiaojun Huang and Jinsong Liu

Subjects

Pure mathematics, Quasiconformal mapping, Metric space, Mathematics::Dynamical Systems, Mathematics::Complex Variables, Applied Mathematics, General Mathematics, Metric (mathematics), Mathematics::Metric Geometry, Composition (combinatorics), Topology, Mathematics

Abstract

In this paper, we prove that the quasihyperbolic metrics are quasiinvariant under a quasisymmetric mapping between two suitable metric spaces. Meanwhile, we also show that quasi-invariance of the quasihyperbolic metrics implies that the corresponding map is quasiconformal. At the end of this paper, as an application of above theorems, we prove that the composition of two quasisymmetric mappings in metric spaces is a quasiconformal mapping.

Published

2015

42. Corrections and notes to 'Value groups, residue fields and bad places of rational function fields'

Author

Anna Blaszczok and Franz-Viktor Kuhlmann

Subjects

Residue (complex analysis), Pure mathematics, Applied Mathematics, General Mathematics, Calculus, Rational function, Mathematics

Abstract

We correct mistakes in a 2004 paper by the second author and report on recent new developments which settle cases left open in that paper.

Published

2015

43. Divisor class groups of singular surfaces

Author

Claudia Polini and Robin Hartshorne

Subjects

Discrete mathematics, Practical number, Pure mathematics, Algebraic geometry of projective spaces, Applied Mathematics, General Mathematics, Invertible sheaf, Picard group, Divisor (algebraic geometry), Codimension, Table of divisors, Mathematics::Algebraic Geometry, Refactorable number, Mathematics

Abstract

We compute divisors class groups of singular surfaces. Most notably we produce an exact sequence that relates the Cartier divisors and almost Cartier divisors of a surface to the those of its normalization. This generalizes Hartshorne's theor em for the cubic ruled surface in P 3 . We apply these results to limit the possible curves that can be s et-theoretic complete intersection in P 3 in characteristic zero. On a nonsingular variety, the study of divisors and linear systems is classical. In fact the entire theory of curves and surfaces is dependent on this study of codimension one subvarieties and the linear and algebraic families in which they move. This theory has been generalized in two directions: the Weil divisors on a normal variety, taking codimension one subvarieties as prime divisors; and the Cartier divisors on an arbitrary scheme, based on locally principal codimension one subschemes. Most of the literature both in algebraic geometry and commutative algebra up to now has been limited to these kinds of divisors. More recently there have been good reasons to consider divisors on non-normal varieties. Jaffe (9) introduced the notion of an almost Cartier divisor, which is locally principal off a subset of codimension two. A theory of generalized divisors was proposed on curves in (14), and extended to any dimension in (15). The latter paper gave a complete description of the generalized divisors on the ruled cubic surface in P 3 . In this paper we extend that analysis to an arbitrary integra l surface X, explaining the group APicX of linear equivalence classes of almost Cartier divisors on X in terms of the Picard group of the normalization S of X and certain local data at the singular points of X. We apply these results to give limitations on the possible curves that can b e set-theoretic compete intersections in P 3 in characteristic zero In section 2 we explain our basic set-up, comparing divisors on a variety X to its normalization S. In Section 3 we prove a local isomorphism that computes the group of almost Cartier divisors at a singular point of X in terms of the Cartier divisors along the curve of singulari ties and its inverse image in the normalization. In Section 4 we derive some global exact sequences for the groups PicX, APicX, and PicS, which generalize the results of (15, §6) to arbitrary surfaces These results are particularly transparent for surfaces wi th ordinary singularities, meaning a double curve with a finite number of pinch points and triple points.

Published

2015

44. Strong convergence to the homogenized limit of parabolic equations with random coefficients

Author

Joseph G. Conlon and Arash Fahim

Subjects

Applied Mathematics, General Mathematics, Mathematical analysis, Homogenization (chemistry), Parabolic partial differential equation, Mathematics

Abstract

This paper is concerned with the study of solutions to discrete parabolic equations in divergence form with random coefficients and their convergence to solutions of a homogenized equation. It has previously been shown that if the random environment is translational invariant and ergodic, then solutions of the random equation converge under diffusive scaling to solutions of a homogenized parabolic PDE. In this paper point-wise estimates are obtained on the difference between the averaged solution to the random equation and the solution to the homogenized equation for certain random environments which are strongly mixing.

Published

2014

45. Remarks on orbital stability of steady vortex rings

Author

Daomin Cao, Guolin Qin, Weicheng Zhan, and Changjun Zou

Subjects

Applied Mathematics, General Mathematics

Abstract

In this paper, we study nonlinear orbital stability of steady vortex rings without swirl, which are special global solutions of the three-dimensional incompressible Euler equations. We prove the existence of orbitally stable steady vortex rings. The proof is based on the classical variational method.

Published

2023

46. A unifying approach to tropicalization

Author

Lorscheid, Oliver

Subjects

Mathematics - Algebraic Geometry, Applied Mathematics, General Mathematics, FOS: Mathematics, Algebraic Geometry (math.AG)

Abstract

In this paper, we introduce ordered blueprints and ordered blue schemes, which serve as a common language for the different approaches to tropicalizations and which enhances tropical varieties with a schematic structure. As an abstract concept, we consider a tropicalization as a moduli problem about extensions of a given valuation $v:k\to T$ between ordered blueprints $k$ and $T$. If $T$ is idempotent, then we show that a generalization of the Giansiracusa bend relation leads to a representing object for the tropicalization, and that it has yet another interpretation in terms of a base change along $v$. We call such a representing object a scheme theoretic tropicalization. This theory recovers and improves other approaches to tropicalizations as we explain with care in the second part of this text. The Berkovich analytification and the Kajiwara-Payne tropicalization appear as rational point sets of a scheme theoretic tropicalization. The same holds true for its generalization by Foster and Ranganathan to higher rank valuations. The scheme theoretic Giansiracusa tropicalization can be recovered from the scheme theoretic tropicalizations in our sense. We obtain an improvement due to the resulting blueprint structure, which is sufficient to remember the Maclagan-Rinc\'on weights. The Macpherson analytification has an interpretation in terms of a scheme theoretic tropicalization, and we give an alternative approach to Macpherson's construction of tropicalizations. The Thuillier analytification and the Ulirsch tropicalization are rational point sets of a scheme theoretic tropicalization. Our approach yields a generalization to any, possibly nontrivial, valuation $v:k\to T$ with idempotent $T$ and enhances the tropicalization with a schematic structure., Comment: 67 pages; changes to previous version: new title, improved exposition and numerous minor changes; to be published in Trans. Amer. Math. Soc

Published

2023

47. Symmetry and monotonicity results for solutions of vectorial 𝑝-Stokes systems

Author

Rafael López-Soriano, Luigi Montoro, and Berardino Sciunzi

Subjects

Applied Mathematics, General Mathematics

Abstract

In this paper we shall study qualitative properties of a p p -Stokes type system, namely − Δ p u = − d i v ⁡ ( | D u | p − 2 D u ) = f ( x , u ) in Ω , \begin{equation*} -{\boldsymbol \Delta }_p{\boldsymbol u}=-\operatorname {\mathbf {div}}(|D{\boldsymbol u}|^{p-2}D{\boldsymbol u}) = {\boldsymbol f}(x,{\boldsymbol u}) \text { in $\Omega $}, \end{equation*} where Δ p {\boldsymbol \Delta }_p is the p p -Laplacian vectorial operator. More precisely, under suitable assumptions on the domain Ω \Omega and the function f \boldsymbol { f} , it is deduced that system solutions are symmetric and monotone. Our main results are derived from a vectorial version of the weak and strong comparison principles, which enable to proceed with the moving-planes technique for systems. As far as we know, these are the first qualitative kind results involving vectorial operators.

Published

2023

48. A topological characterisation of the Kashiwara–Vergne groups

Author

Zsuzsanna Dancso, Iva Halacheva, and Marcy Robertson

Subjects

Applied Mathematics, General Mathematics

Abstract

In [Math. Ann. 367 (2017), pp. 1517–1586] Bar-Natan and the first author show that solutions to the Kashiwara–Vergne equations are in bijection with certain knot invariants: homomorphic expansions of welded foams. Welded foams are a class of knotted tubes in R 4 \mathbb {R}^4 , which can be finitely presented algebraically as a circuit algebra, or equivalently, a wheeled prop. In this paper we describe the Kashiwara-Vergne groups K V \mathsf {KV} and K R V \mathsf {KRV} —the symmetry groups of Kashiwara-Vergne solutions—as automorphisms of the completed circuit algebras of welded foams, and their associated graded circuit algebras of arrow diagrams, respectively. Finally, we provide a description of the graded Grothendieck-Teichmüller group G R T 1 \mathsf {GRT}_1 as automorphisms of arrow diagrams.

Published

2023

49. Integrality in the Matching-Jack conjecture and the Farahat-Higman algebra

Author

Dali, Houcine Ben

Subjects

Applied Mathematics, General Mathematics, FOS: Mathematics, 05E05, Mathematics - Combinatorics, Combinatorics (math.CO)

Abstract

Using Jack polynomials, Goulden and Jackson have introduced a one parameter deformation $\tau_b$ of the generating series of bipartite maps, which generalizes the partition function of $\beta$-ensembles of random matrices. The Matching-Jack conjecture suggests that the coefficients $c^\lambda_{\mu,\nu}$ of the function $\tau_b$ in the power-sum basis are non-negative integer polynomials in the deformation parameter $b$. Do{\l}\k{e}ga and F\'eray have proved in 2016 the "polynomiality" part in the Matching-Jack conjecture, namely that coefficients $c^\lambda_{\mu,\nu}$ are in $\mathbb{Q}[b]$. In this paper, we prove the "integrality" part, i.e that the coefficients $c^\lambda_{\mu,\nu}$ are in $\mathbb{Z}[b]$. The proof is based on a recent work of the author that deduces the Matching-Jack conjecture for marginal sums from an analog result for the $b$-conjecture, established in 2020 by Chapuy and Do{\l}\k{e}ga. A key step in the proof involves a new connection with the graded Farahat-Higman algebra., Comment: 21 pages; v2: minor corrections

Published

2023

50. Gaussian phenomena for small quadratic residues and non-residues

Author

Debmalya Basak, Kunjakanan Nath, and Alexandru Zaharescu

Subjects

Applied Mathematics, General Mathematics

Abstract

Assuming the Generalized Riemann Hypothesis, it is known that the smallest quadratic non-residue modulo a prime p p is less than or equal to ( log ⁡ p ) 2 (\log p)^2 . Our aim in this paper is to establish the distribution of quadratic non-residues in even smaller intervals of size ( log ⁡ p ) A (\log p)^A with A > 1 A >1 , for almost all primes p p .

Published

2023