Your search keyword '"Nachmias, Asaf"' showing total 181 results

1. A sharp lower bound on the small eigenvalues of surfaces

Author

Gross, Renan, Lachman, Guy, and Nachmias, Asaf

Subjects

Mathematics - Spectral Theory, Mathematics - Differential Geometry, Mathematics - Probability

Abstract

Let $S$ be a compact hyperbolic surface of genus $g\geq 2$ and let $I(S) = \frac{1}{\mathrm{Vol}(S)}\int_{S} \frac{1}{\mathrm{Inj}(x)^2 \wedge 1} dx$, where $\mathrm{Inj}(x)$ is the injectivity radius at $x$. We prove that for any $k\in \{1,\ldots, 2g-3\}$, the $k$-th eigenvalue $\lambda_k$ of the Laplacian satisfies \begin{equation*} \lambda_k \geq \frac{c k^2}{I(S) g^2} \, , \end{equation*} where $c>0$ is some universal constant. We use this bound to prove the heat kernel estimate \begin{equation*} \frac{1}{\mathrm{Vol}(S)} \int_S \Big| p_t(x,x) -\frac{1}{\mathrm{Vol}(S)} \Big | ~dx \leq C \sqrt{ \frac{I(S)}{t}} \qquad \forall t \geq 1 \, , \end{equation*} where $C<\infty$ is some universal constant. These bounds are optimal in the sense that for every $g\geq 2$ there exists a compact hyperbolic surface of genus $g$ satisfying the reverse inequalities with different constants., Comment: 18 pages, 2 figures

Published

2024

2. The scaling limit of critical hypercube percolation

Author

Blanc-Renaudie, Arthur, Broutin, Nicolas, and Nachmias, Asaf

Subjects

Mathematics - Probability, 60D05, 60F05, 60K35

Abstract

We study the connected components in critical percolation on the Hamming hypercube $\{0,1\}^m$. We show that their sizes rescaled by $2^{-2m/3}$ converge in distribution, and that, considered as metric measure spaces with the graph distance rescaled by $2^{-m/3}$ and the uniform measure, they converge in distribution with respect to the Gromov-Hausdorff-Prokhorov topology. The two corresponding limits are as in critical Erd\H{o}s-R\'enyi graphs., Comment: 50 pages, 5 figures, comments are welcome

Published

2024

3. The union of independent USFs on $\mathbb{Z}^d$ is transient

Author

Archer, Eleanor, Nachmias, Asaf, Shalev, Matan, and Tang, Pengfei

Subjects

Mathematics - Probability

Abstract

We show that the union of two or more independent uniform spanning forests (USF) on $\mathbb{Z}^d$ with $d\geq 3$ almost surely forms a connected transient graph. In fact, this also holds when taking the union of a deterministic everywhere percolating set and an independent $\epsilon$-Bernoulli percolation on a single USF sample., Comment: 10 pages

Published

2023

4. The wired minimal spanning forest on the Poisson-weighted infinite tree

Author

Nachmias, Asaf and Tang, Pengfei

Subjects

Mathematics - Probability

Abstract

We study the spectral and diffusive properties of the wired minimal spanning forest (WMSF) on the Poisson-weighted infinite tree (PWIT). Let $M$ be the tree containing the root in the WMSF on the PWIT and $(Y_n)_{n\geq0}$ be a simple random walk on $M$ starting from the root. We show that almost surely $M$ has $\mathbb{P}[Y_{2n}=Y_0]=n^{-3/4+o(1)}$ and $\mathrm{dist}(Y_0,Y_n)=n^{1/4+o(1)}$ with high probability. That is, the spectral dimension of $M$ is $\frac{3}{2}$ and its typical displacement exponent is $\frac{1}{4}$, almost surely. These confirm Addario-Berry's predictions in arXiv:1301.1667., Comment: 35 pages. Section 5 rewritten. Accepted version in AAP

Published

2022

5. The GHP Scaling Limit of Uniform Spanning Trees in High Dimensions

Author

Archer, Eleanor, Nachmias, Asaf, and Shalev, Matan

Published

2024

6. Planar Maps, Random Walks and Circle Packing

Author

Nachmias, Asaf

Subjects

Mathematics, Probabilities, Discrete mathematics, Geometry, Mathematical physics, thema EDItEUR::P Mathematics and Science::PB Mathematics::PBD Discrete mathematics, thema EDItEUR::P Mathematics and Science::PB Mathematics::PBM Geometry, thema EDItEUR::P Mathematics and Science::PB Mathematics::PBT Probability and statistics, thema EDItEUR::P Mathematics and Science::PH Physics::PHU Mathematical physics

Abstract

This open access book focuses on the interplay between random walks on planar maps and Koebe’s circle packing theorem. Further topics covered include electric networks, the He–Schramm theorem on infinite circle packings, uniform spanning trees of planar maps, local limits of finite planar maps and the almost sure recurrence of simple random walks on these limits. One of its main goals is to present a self-contained proof that the uniform infinite planar triangulation (UIPT) is almost surely recurrent. Full proofs of all statements are provided. A planar map is a graph that can be drawn in the plane without crossing edges, together with a specification of the cyclic ordering of the edges incident to each vertex. One widely applicable method of drawing planar graphs is given by Koebe’s circle packing theorem (1936). Various geometric properties of these drawings, such as existence of accumulation points and bounds on the radii, encode important probabilistic information, such as the recurrence/transience of simple random walks and connectivity of the uniform spanning forest. This deep connection is especially fruitful to the study of random planar maps. The book is aimed at researchers and graduate students in mathematics and is suitable for a single-semester course; only a basic knowledge of graduate level probability theory is assumed.

Published

2020

7. The GHP scaling limit of uniform spanning trees in high dimensions

Author

Archer, Eleanor, Nachmias, Asaf, and Shalev, Matan

Subjects

Mathematics - Probability, Mathematics - Combinatorics

Abstract

We show that the Brownian continuum random tree is the Gromov-Hausdorff-Prohorov scaling limit of the uniform spanning tree on high-dimensional graphs including the $d$-dimensional torus $\mathbb{Z}_n^d$ with $d>4$, the hypercube $\{0,1\}^n$, and transitive expander graphs. Several corollaries for associated quantities are then deduced: convergence in distribution of the rescaled diameter, height and simple random walk on these uniform spanning trees to their continuum analogues on the continuum random tree., Comment: 32 pages. The proof of Lemma 2.9 in the first version of this paper is incorrect and we were unable to correct it. In this second version we provide an alternative route for the proof of the main theorems

Published

2021

8. The local limit of uniform spanning trees

Author

Nachmias, Asaf and Peres, Yuval

Subjects

Mathematics - Probability

Abstract

We show that the local limit of the uniform spanning tree on any finite, simple, connected, regular graph sequence with degree tending to infinity is the Poisson(1) branching process conditioned to survive forever. An extension to "almost" regular graphs and a quenched version are also given., Comment: 25 pages

Published

2020

9. The diameter of the uniform spanning tree of dense graphs

Author

Alon, Noga, Nachmias, Asaf, and Shalev, Matan

Subjects

Mathematics - Probability, Mathematics - Combinatorics

Abstract

We show that the diameter of a uniformly drawn spanning tree of a simple connected graph on $n$ vertices with minimal degree linear in $n$ is typically of order $\sqrt{n}$. A byproduct of our proof, which is of independent interest, is that on such graphs the Cheeger constant and the spectral gap are comparable., Comment: 23 pages

Published

2020

10. The diameter of uniform spanning trees in high dimensions

Author

Michaeli, Peleg, Nachmias, Asaf, and Shalev, Matan

Subjects

Mathematics - Probability, Mathematics - Combinatorics

Abstract

We show that the diameter of a uniformly drawn spanning tree of a connected graph on $n$ vertices which satisfies certain high-dimensionality conditions typically grows like $\Theta(\sqrt{n})$. In particular this result applies to expanders, finite tori $\mathbb{Z}_m^d$ of dimension $d \geq 5$, the hypercube $\{0,1\}^m$, and small perturbations thereof., Comment: 29 pages

Published

2019

11. The Dirichlet problem for orthodiagonal maps

Author

Gurel-Gurevich, Ori, Jerison, Daniel C., and Nachmias, Asaf

Subjects

Mathematics - Probability, Mathematics - Complex Variables

Abstract

We prove that the discrete harmonic function corresponding to smooth Dirichlet boundary conditions on orthodiagonal maps, that is, plane graphs having quadrilateral faces with orthogonal diagonals, converges to its continuous counterpart as the mesh size goes to 0. This provides a convergence statement for discrete holomorphic functions, similar to the one obtained by Chelkak and Smirnov for isoradial graphs. We observe that by the double circle packing theorem, any finite, simple, 3-connected planar map admits an orthodiagonal representation. Our result improves the work of Skopenkov and Werness by dropping all regularity assumptions required in their work and providing effective bounds. In particular, no bound on the vertex degrees is required. Thus, the result can be applied to models of random planar maps that with high probability admit orthodiagonal representation with mesh size tending to 0. In a companion paper, we show that this can be done for the discrete mating-of-trees random map model of Duplantier, Gwynne, Miller and Sheffield., Comment: 44 pages, 11 figures

Published

2019

12. A combinatorial criterion for macroscopic circles in planar triangulations

Author

Gurel-Gurevich, Ori, Jerison, Daniel C., and Nachmias, Asaf

Subjects

Mathematics - Probability, Mathematics - Metric Geometry

Abstract

Given a finite simple triangulation, we estimate the sizes of circles in its circle packing in terms of Cannon's vertex extremal length. Our estimates provide control over the size of the largest circle in the packing. We use them, combined with results from [12], to prove that in a proper circle packing of the discrete mating-of-trees random map model of Duplantier, Gwynne, Miller and Sheffield, the size of the largest circle goes to zero with high probability., Comment: 13 pages, 3 figures

Published

2019

13. Planar maps, random walks and circle packing

Author

Nachmias, Asaf

Subjects

Mathematics - Probability, Mathematics - Combinatorics

Abstract

These are lecture notes of the 48th Saint-Flour summer school, July 2018, on the topic of planar maps, random walks and the circle packing theorem., Comment: 106 pages, many figures

Published

2018

14. Uniform Spanning Trees of Planar Graphs

Author

Nachmias, Asaf, Morel, Jean-Michel, Editor-in-Chief, Teissier, Bernard, Editor-in-Chief, Baur, Karin, Advisory Editor, Brion, Michel, Advisory Editor, De Lellis, Camillo, Advisory Editor, Figalli, Alessio, Advisory Editor, Huber, Annette, Advisory Editor, Khoshnevisan, Davar, Advisory Editor, Kontoyiannis, Ioannis, Advisory Editor, Kunoth, Angela, Advisory Editor, Mézard, Ariane, Advisory Editor, Podolskij, Mark, Advisory Editor, Serfaty, Sylvia, Advisory Editor, Vezzosi, Gabriele, Advisory Editor, Wienhard, Anna, Advisory Editor, and Nachmias, Asaf

Published

2020

15. Related Topics

Author

Nachmias, Asaf, Morel, Jean-Michel, Editor-in-Chief, Teissier, Bernard, Editor-in-Chief, Baur, Karin, Advisory Editor, Brion, Michel, Advisory Editor, De Lellis, Camillo, Advisory Editor, Figalli, Alessio, Advisory Editor, Huber, Annette, Advisory Editor, Khoshnevisan, Davar, Advisory Editor, Kontoyiannis, Ioannis, Advisory Editor, Kunoth, Angela, Advisory Editor, Mézard, Ariane, Advisory Editor, Podolskij, Mark, Advisory Editor, Serfaty, Sylvia, Advisory Editor, Vezzosi, Gabriele, Advisory Editor, Wienhard, Anna, Advisory Editor, and Nachmias, Asaf

Published

2020

16. Recurrence of Random Planar Maps

Author

Nachmias, Asaf, Morel, Jean-Michel, Editor-in-Chief, Teissier, Bernard, Editor-in-Chief, Baur, Karin, Advisory Editor, Brion, Michel, Advisory Editor, De Lellis, Camillo, Advisory Editor, Figalli, Alessio, Advisory Editor, Huber, Annette, Advisory Editor, Khoshnevisan, Davar, Advisory Editor, Kontoyiannis, Ioannis, Advisory Editor, Kunoth, Angela, Advisory Editor, Mézard, Ariane, Advisory Editor, Podolskij, Mark, Advisory Editor, Serfaty, Sylvia, Advisory Editor, Vezzosi, Gabriele, Advisory Editor, Wienhard, Anna, Advisory Editor, and Nachmias, Asaf

Published

2020

17. Planar Local Graph Limits

Author

Nachmias, Asaf, Morel, Jean-Michel, Editor-in-Chief, Teissier, Bernard, Editor-in-Chief, Baur, Karin, Advisory Editor, Brion, Michel, Advisory Editor, De Lellis, Camillo, Advisory Editor, Figalli, Alessio, Advisory Editor, Huber, Annette, Advisory Editor, Khoshnevisan, Davar, Advisory Editor, Kontoyiannis, Ioannis, Advisory Editor, Kunoth, Angela, Advisory Editor, Mézard, Ariane, Advisory Editor, Podolskij, Mark, Advisory Editor, Serfaty, Sylvia, Advisory Editor, Vezzosi, Gabriele, Advisory Editor, Wienhard, Anna, Advisory Editor, and Nachmias, Asaf

Published

2020

18. Parabolic and Hyperbolic Packings

Author

Nachmias, Asaf, Morel, Jean-Michel, Editor-in-Chief, Teissier, Bernard, Editor-in-Chief, Baur, Karin, Advisory Editor, Brion, Michel, Advisory Editor, De Lellis, Camillo, Advisory Editor, Figalli, Alessio, Advisory Editor, Huber, Annette, Advisory Editor, Khoshnevisan, Davar, Advisory Editor, Kontoyiannis, Ioannis, Advisory Editor, Kunoth, Angela, Advisory Editor, Mézard, Ariane, Advisory Editor, Podolskij, Mark, Advisory Editor, Serfaty, Sylvia, Advisory Editor, Vezzosi, Gabriele, Advisory Editor, Wienhard, Anna, Advisory Editor, and Nachmias, Asaf

Published

2020

19. The Circle Packing Theorem

Author

Nachmias, Asaf, Morel, Jean-Michel, Editor-in-Chief, Teissier, Bernard, Editor-in-Chief, Baur, Karin, Advisory Editor, Brion, Michel, Advisory Editor, De Lellis, Camillo, Advisory Editor, Figalli, Alessio, Advisory Editor, Huber, Annette, Advisory Editor, Khoshnevisan, Davar, Advisory Editor, Kontoyiannis, Ioannis, Advisory Editor, Kunoth, Angela, Advisory Editor, Mézard, Ariane, Advisory Editor, Podolskij, Mark, Advisory Editor, Serfaty, Sylvia, Advisory Editor, Vezzosi, Gabriele, Advisory Editor, Wienhard, Anna, Advisory Editor, and Nachmias, Asaf

Published

2020

20. Random Walks and Electric Networks

Author

Nachmias, Asaf, Morel, Jean-Michel, Editor-in-Chief, Teissier, Bernard, Editor-in-Chief, Baur, Karin, Advisory Editor, Brion, Michel, Advisory Editor, De Lellis, Camillo, Advisory Editor, Figalli, Alessio, Advisory Editor, Huber, Annette, Advisory Editor, Khoshnevisan, Davar, Advisory Editor, Kontoyiannis, Ioannis, Advisory Editor, Kunoth, Angela, Advisory Editor, Mézard, Ariane, Advisory Editor, Podolskij, Mark, Advisory Editor, Serfaty, Sylvia, Advisory Editor, Vezzosi, Gabriele, Advisory Editor, Wienhard, Anna, Advisory Editor, and Nachmias, Asaf

Published

2020

21. Introduction

Author

Nachmias, Asaf, Morel, Jean-Michel, Editor-in-Chief, Teissier, Bernard, Editor-in-Chief, Baur, Karin, Advisory Editor, Brion, Michel, Advisory Editor, De Lellis, Camillo, Advisory Editor, Figalli, Alessio, Advisory Editor, Huber, Annette, Advisory Editor, Khoshnevisan, Davar, Advisory Editor, Kontoyiannis, Ioannis, Advisory Editor, Kunoth, Angela, Advisory Editor, Mézard, Ariane, Advisory Editor, Podolskij, Mark, Advisory Editor, Serfaty, Sylvia, Advisory Editor, Vezzosi, Gabriele, Advisory Editor, Wienhard, Anna, Advisory Editor, and Nachmias, Asaf

Published

2020

22. The local limit of uniform spanning trees

Author

Nachmias, Asaf and Peres, Yuval

Published

2022

23. The local limit of the uniform spanning tree on dense graphs

Author

Hladký, Jan, Nachmias, Asaf, and Tran, Tuan

Subjects

Mathematics - Probability, Mathematics - Combinatorics

Abstract

Let $G$ be a connected graph in which almost all vertices have linear degrees and let $T$ be a uniform spanning tree of $G$. For any fixed rooted tree $F$ of height $r$ we compute the asymptotic density of vertices $v$ for which the $r$-ball around $v$ in $T$ is isomorphic to $F$. We deduce from this that if $\{G_n\}$ is a sequence of such graphs converging to a graphon $W$, then the uniform spanning tree of $G_n$ locally converges to a multi-type branching process defined in terms of $W$. As an application, we prove that in a graph with linear minimum degree, with high probability, the density of leaves in a uniform spanning tree is at least $1/e-o(1)$, the density of vertices of degree $2$ is at most $1/e+o(1)$ and the density of vertices of degree $k\geq 3$ is at most ${(k-2)^{k-2} \over (k-1)! e^{k-2}} + o(1)$. These bounds are sharp., Comment: 44 pages, error in Claim 4.1.3 fixed, as will appear in Journal of Statistical Physics, special issue devoted to Complex Networks

Published

2017

24. Geometric and spectral properties of causal maps

Author

Curien, Nicolas, Hutchcroft, Tom, and Nachmias, Asaf

Subjects

Mathematics - Probability, Mathematical Physics

Abstract

We study the random planar map obtained from a critical, finite variance, Galton-Watson plane tree by adding the horizontal connections between successive vertices at each level. This random graph is closely related to the well-known causal dynamical triangulation that was introduced by Ambj{\o}rn and Loll and has been studied extensively by physicists. We prove that the horizontal distances in the graph are smaller than the vertical distances, but only by a subpolynomial factor: The diameter of the set of vertices at level $n$ is both $o(n)$ and $n^{1-o(1)}$. This enables us to prove that the spectral dimension of the infinite version of the graph is almost surely equal to 2, and consequently that the random walk is diffusive almost surely. We also initiate an investigation of the case in which the offspring distribution is critical and belongs to the domain of attraction of an $\alpha$-stable law for $\alpha \in (1,2)$, for which our understanding is much less complete., Comment: 27 pages, 11 figures. Accepted version, to appear in JEMS

Published

2017

25. Hyperbolic and Parabolic Unimodular Random Maps

Author

Angel, Omer, Hutchcroft, Tom, Nachmias, Asaf, and Ray, Gourab

Subjects

Mathematics - Probability

Abstract

We show that for infinite planar unimodular random rooted maps, many global geometric and probabilistic properties are equivalent, and are determined by a natural, local notion of average curvature. This dichotomy includes properties relating to amenability, conformal geometry, random walks, uniform and minimal spanning forests, and Bernoulli bond percolation. We also prove that every simply connected unimodular random rooted map is sofic, that is, a Benjamini-Schramm limit of finite maps., Comment: 54 pages, 8 figures. V2: Final version, some minor revisions. To appear in GAFA

Published

2016

26. Slightly subcritical hypercube percolation

Author

Hulshof, Tim and Nachmias, Asaf

Subjects

Mathematics - Probability, Mathematics - Combinatorics

Abstract

We study bond percolation on the hypercube $\{0,1\}^m$ in the slightly subcritical regime where $p = p_c (1-\varepsilon_m)$ and $\varepsilon_m = o(1)$ but $\varepsilon_m \gg 2^{-m/3}$ and study the clusters of largest volume and diameter. We establish that with high probability the largest component has cardinality $\Theta\left(\varepsilon_m^{-2} \log(\varepsilon_m^3 2^m)\right)$, that the maximal diameter of all clusters is $(1+o(1)) \varepsilon_m^{-1} \log(\varepsilon_m^3 2^m)$, and that the maximal mixing time of all clusters is $\Theta\left(\varepsilon_m^{-3} \log^2(\varepsilon_m^3 2^m)\right)$. These results hold in different levels of generality, and in particular, some of the estimates hold for various classes of graphs such as high-dimensional tori, expanders of high degree and girth, products of complete graphs, and infinite lattices in high dimensions., Comment: 38 pages

Published

2016

27. Uniform Spanning Forests of Planar Graphs

Author

Hutchcroft, Tom and Nachmias, Asaf

Subjects

Mathematics - Probability

Abstract

We prove that the free uniform spanning forest of any bounded degree proper plane graph is connected almost surely, answering a question of Benjamini, Lyons, Peres and Schramm. We provide a quantitative form of this result, calculating the critical exponents governing the geometry of the uniform spanning forests of transient proper plane graphs with bounded degrees and codegrees. We find that the same exponents hold universally over this entire class of graphs provided that measurements are made using the hyperbolic geometry of their circle packings rather than their usual combinatorial geometry., Comment: 39 pages, 6 figures. Version 2: Improved exposition; material on multiply-connected maps has been removed and will reappear as a separate paper

Published

2016

28. Indistinguishability of Trees in Uniform Spanning Forests

Author

Hutchcroft, Tom and Nachmias, Asaf

Subjects

Mathematics - Probability, Mathematical Physics

Abstract

We prove that in both the free and the wired uniform spanning forest (FUSF and WUSF) of any unimodular random rooted network (in particular, of any Cayley graph), it is impossible to distinguish the connected components of the forest from each other by invariantly defined graph properties almost surely. This confirms a conjecture of Benjamini, Lyons, Peres and Schramm. We use this to answer positively two additional questions of Benjamini, Lyons, Peres and Schramm under the assumption of unimodularity. We prove that on any unimodular random rooted network, the FUSF is either connected or has infinitely many connected components almost surely, and, if the FUSF and WUSF are distinct, then every component of the FUSF is transient and infinitely-ended almost surely. All of these results are new even for Cayley graphs., Comment: 43 pages, 2 figures. Version 2: minor corrections and improvements; references added; one additional figure

Published

2015

29. Recurrence of multiply-ended planar triangulations

Author

Gurel-Gurevich, Ori, Nachmias, Asaf, and Souto, Juan

Subjects

Mathematics - Probability

Abstract

In this note we show that a bounded degree planar triangulation is recurrent if and only if the set of accumulation points of some/any circle packing of it is polar (that is, planar Brownian motion avoids it with probability 1). This generalizes a theorem of He and Schramm [6] who proved it when the set of accumulation points is either empty or a Jordan curve, in which case the graph has one end. We also show that this statement holds for any straight-line embedding with angles uniformly bounded away from 0., Comment: 8 pages, 1 figure

Published

2015

30. Unimodular Hyperbolic Triangulations: Circle Packing and Random Walk

Author

Angel, Omer, Hutchcroft, Tom, Nachmias, Asaf, and Ray, Gourab

Subjects

Mathematics - Probability

Abstract

We show that the circle packing type of a unimodular random plane triangulation is parabolic if and only if the expected degree of the root is six, if and only if the triangulation is amenable in the sense of Aldous and Lyons. As a part of this, we obtain an alternative proof of the Benjamini-Schramm Recurrence Theorem. Secondly, in the hyperbolic case, we prove that the random walk almost surely converges to a point in the unit circle, that the law of this limiting point has full support and no atoms, and that the unit circle is a realisation of the Poisson boundary. Finally, we show that the simple random walk has positive speed in the hyperbolic metric., Comment: 40 pages, 5 figures; minor revision, new and improved proof for Proposition 1.2

Published

2015

31. The Dirichlet problem for orthodiagonal maps

Author

Gurel-Gurevich, Ori, Jerison, Daniel C., and Nachmias, Asaf

Published

2020

32. The diameter of uniform spanning trees in high dimensions

Author

Michaeli, Peleg, Nachmias, Asaf, and Shalev, Matan

Published

2021

33. Random walks on stochastic hyperbolic half planar triangulations

Author

Angel, Omer, Nachmias, Asaf, and Ray, Gourab

Subjects

Mathematics - Probability

Abstract

We study the simple random walk on stochastic hyperbolic half planar triangulations constructed in Angel and Ray [3]. We show that almost surely the walker escapes the boundary of the map in positive speed and that the return probability to the starting point after n steps scales like $\exp(-cn^{1/3})$., Comment: 30 pages

Published

2014

34. Boundaries of planar graphs, via circle packings

Author

Angel, Omer, Barlow, Martin T., Gurel-Gurevich, Ori, and Nachmias, Asaf

Subjects

Mathematics - Probability

Abstract

We provide a geometric representation of the Poisson and Martin boundaries of a transient, bounded degree triangulation of the plane in terms of its circle packing in the unit disc. (This packing is unique up to M\"obius transformations.) More precisely, we show that any bounded harmonic function on the graph is the harmonic extension of some measurable function on the boundary of the disk, and that the space of extremal positive harmonic functions, that is, the Martin boundary, is homeomorphic to the unit circle. All our results hold more generally for any "good"-embedding of planar graphs, that is, an embedding in the unit disc with straight lines such that angles are bounded away from $0$ and $\pi$ uniformly, and lengths of adjacent edges are comparable. Furthermore, we show that in a good embedding of a planar graph the probability that a random walk exits a disc through a sufficiently wide arc is at least a constant, and that Brownian motion on such graphs takes time of order $r^2$ to exit a disc of radius $r$. These answer a question recently posed by Chelkak (2014)., Comment: Published at http://dx.doi.org/10.1214/15-AOP1014 in the Annals of Probability (http://www.imstat.org/aop/) by the Institute of Mathematical Statistics (http://www.imstat.org)

Published

2013

35. Electrical resistance of the low dimensional critical branching random walk

Author

Járai, Antal A. and Nachmias, Asaf

Subjects

Mathematics - Probability, Mathematical Physics

Abstract

We show that the electrical resistance between the origin and generation n of the incipient infinite oriented branching random walk in dimensions d<6 is O(n^{1-alpha}) for some universal constant alpha>0. This answers a question of Barlow, J\'arai, Kumagai and Slade [2]., Comment: 44 pages, 3 figures

Published

2013

36. Unlacing the lace expansion: a survey to hypercube percolation

Author

van der Hofstad, Remco and Nachmias, Asaf

Subjects

Mathematics - Probability, Mathematical Physics

Abstract

The purpose of this note is twofold. First, we survey the study of the percolation phase transition on the Hamming hypercube {0,1}^m obtained in the series of papers [9,10,11,24]. Secondly, we explain how this study can be performed without the use of the so-called "lace-expansion" technique. To that aim, we provide a novel simple proof that the triangle condition holds at the critical probability. We hope that some of these techniques will be useful to obtain non-perturbative proofs in the analogous, yet much more difficult study on high-dimensional tori., Comment: 19 pages. arXiv admin note: text overlap with arXiv:1201.3953

Published

2012

37. Rate of Convergence for Cardy's Formula

Author

Mendelson, Dana, Nachmias, Asaf, and Watson, Samuel S.

Subjects

Mathematics - Probability, Mathematical Physics

Abstract

We show that crossing probabilities in 2D critical site percolation on the triangular lattice in a piecewise analytic Jordan domain converge with power law rate in the mesh size to their limit given by the Cardy-Smirnov formula. We use this result to obtain new upper and lower bounds of exp(O(sqrt(log log R))) R^(-1/3) for the probability that the cluster at the origin in the half-plane has diameter R, improving the previously known estimate of R^(-1/3+o(1))., Comment: 31 pages, 17 figures. Referee corrections made, to appear in Communications in Mathematical Physics

Published

2012

38. Non-amenable Cayley graphs of high girth have p_c < p_u and mean-field exponents

Author

Nachmias, Asaf and Peres, Yuval

Subjects

Mathematics - Probability, Mathematics - Combinatorics

Abstract

In this note we show that percolation on non-amenable Cayley graphs of high girth has a phase of non-uniqueness, i.e., p_c < p_u. Furthermore, we show that percolation and self-avoiding walk on such graphs have mean-field critical exponents. In particular, the self-avoiding walk has positive speed., Comment: 8 pages

Published

2012

39. Recurrence of planar graph limits

Author

Gurel-Gurevich, Ori and Nachmias, Asaf

Subjects

Mathematics - Probability, Mathematics - Combinatorics

Abstract

We prove that any distributional limit of finite planar graphs in which the degree of the root has an exponential tail is almost surely recurrent. As a corollary, we obtain that the uniform infinite planar triangulation and quadrangulation (UIPT and UIPQ) are almost surely recurrent, resolving a conjecture of Angel, Benjamini and Schramm. We also settle another related problem of Benjamini and Schramm. We show that in any bounded degree, finite planar graph the probability that the simple random walk started at a uniform random vertex avoids its initial location for T steps is at most C/log T., Comment: 21 pages, 3 figures

Published

2012

40. Hypercube percolation

Author

van der Hofstad, Remco and Nachmias, Asaf

Subjects

Mathematics - Probability, Mathematics - Combinatorics

Abstract

We study bond percolation on the Hamming hypercube {0,1}^m around the critical probability p_c. It is known that if p=p_c(1+O(2^{-m/3})), then with high probability the largest connected component C_1 is of size Theta(2^{2m/3}) and that this quantity is non-concentrated. Here we show that for any sequence eps_m such that eps_m=o(1) but eps_m >> 2^{-m/3} percolation on the hypercube at p_c(1+eps_m) has |C_1| = (2+o(1)) eps_m 2^m and |C_2| = o(eps_m 2^m) with high probability, where C_2 is the second largest component. This resolves a conjecture of Borgs, Chayes, the first author, Slade and Spencer [17]., Comment: 71 pages, 5 figures

Published

2012

41. A power law of order 1/4 for critical mean-field Swendsen-Wang dynamics

Author

Long, Yun, Nachmias, Asaf, Ning, Weiyang, and Peres, Yuval

Subjects

Mathematics - Probability

Abstract

The Swendsen-Wang dynamics is a Markov chain widely used by physicists to sample from the Boltzmann-Gibbs distribution of the Ising model. Cooper, Dyer, Frieze and Rue proved that on the complete graph K_n the mixing time of the chain is at most O(n^{1/2}) for all non-critical temperatures. In this paper we show that the mixing time is Theta(1) in high temperatures, Theta(log n) in low temperatures and Theta(n^{1/4}) at criticality. We also provide an upper bound of O(log n) for Swendsen-Wang dynamics for the q-state ferromagnetic Potts model on any tree with n vertices., Comment: 87 pages

Published

2011

42. Nonconcentration of return times

Author

Gurel-Gurevich, Ori and Nachmias, Asaf

Subjects

Mathematics - Probability

Abstract

We show that the distribution of the first return time $\tau$ to the origin, v, of a simple random walk on an infinite recurrent graph is heavy tailed and nonconcentrated. More precisely, if $d_v$ is the degree of v, then for any $t\geq1$ we have \[\mathbf{P}_v(\tau\ge t)\ge\frac{c}{d_v\sqrt{t}}\] and \[\mathbf{P}_v(\tau=t\mid\tau\geq t)\leq\frac{C\log(d_vt)}{t}\] for some universal constants $c>0$ and $C<\infty$. The first bound is attained for all t when the underlying graph is $\mathbb{Z}$, and as for the second bound, we construct an example of a recurrent graph G for which it is attained for infinitely many t's. Furthermore, we show that in the comb product of that graph G with $\mathbb{Z}$, two independent random walks collide infinitely many times almost surely. This answers negatively a question of Krishnapur and Peres [Electron. Commun. Probab. 9 (2004) 72-81] who asked whether every comb product of two infinite recurrent graphs has the finite collision property., Comment: Published in at http://dx.doi.org/10.1214/12-AOP785 the Annals of Probability (http://www.imstat.org/aop/) by the Institute of Mathematical Statistics (http://www.imstat.org)

Published

2010

43. The evolution of the cover time

Author

Barlow, Martin T., Ding, Jian, Nachmias, Asaf, and Peres, Yuval

Subjects

Mathematics - Probability

Abstract

The cover time of a graph is a celebrated example of a parameter that is easy to approximate using a randomized algorithm, but for which no constant factor deterministic polynomial time approximation is known. A breakthrough due to Kahn, Kim, Lovasz and Vu yielded a (log log n)^2 polynomial time approximation. We refine this upper bound, and show that the resulting bound is sharp and explicitly computable in random graphs. Cooper and Frieze showed that the cover time of the largest component of the Erdos-Renyi random graph G(n,c/n) in the supercritical regime with c>1 fixed, is asymptotic to f(c) n \log^2 n, where f(c) tends to 1 as c tends to 1. However, our new bound implies that the cover time for the critical Erdos-Renyi random graph G(n,1/n) has order n, and shows how the cover time evolves from the critical window to the supercritical phase. Our general estimate also yields the order of the cover time for a variety of other concrete graphs, including critical percolation clusters on the Hamming hypercube {0,1}^n, on high-girth expanders, and on tori Z_n^d for fixed large d. For the graphs we consider, our results show that the blanket time, introduced by Winkler and Zuckerman, is within a constant factor of the cover time. Finally, we prove that for any connected graph, adding an edge can increase the cover time by at most a factor of 4., Comment: 14 pages, to appear in CPC

Published

2010

44. Arm exponents in high dimensional percolation

Author

Kozma, Gady and Nachmias, Asaf

Subjects

Mathematics - Probability, Mathematical Physics

Abstract

We study the probability that the origin is connected to the sphere of radius r (an arm event) in critical percolation in high dimensions, namely when the dimension d is large enough or when d>6 and the lattice is sufficiently spread out. We prove that this probability decays like 1/r^2. Furthermore, we show that the probability of having k disjoint arms to distance r emanating from the vicinity of the origin is 1/r^2k., Comment: 42 pages, 9 figures

Published

2009

45. A note about critical percolation on finite graphs

Author

Kozma, Gady and Nachmias, Asaf

Subjects

Mathematics - Probability, Mathematical Physics

Abstract

In this note we study the geometry of the largest component C_1 of critical percolation on a finite graph G which satisfies the finite triangle condition, defined by Borgs et al. There it is shown that this component is of size n^{2/3}, and here we show that its diameter is n^{1/3} and that the simple random walk takes n steps to mix on it. Our results apply to critical percolation on several high-dimensional finite graphs such as the finite torus Z_n^d (with d large and n tending to infinity) and the Hamming cube {0,1}^n., Comment: 11 pages

Published

2009

46. Is the critical percolation probability local?

Author

Benjamini, Itai, Nachmias, Asaf, and Peres, Yuval

Subjects

Mathematics - Probability, Mathematics - Group Theory

Abstract

We show that the critical probability for percolation on a d-regular non-amenable graph of large girth is close to the critical probability for percolation on an infinite d-regular tree. This is a special case of a conjecture due to O. Schramm on the locality of p_c. We also prove a finite analogue of the conjecture for expander graphs., Comment: 9 pages

Published

2009

47. The Alexander-Orbach conjecture holds in high dimensions

Author

Kozma, Gady and Nachmias, Asaf

Subjects

Mathematics - Probability, Mathematical Physics

Abstract

We examine the incipient infinite cluster (IIC) of critical percolation in regimes where mean-field behavior has been established, namely when the dimension d is large enough or when d>6 and the lattice is sufficiently spread out. We find that random walk on the IIC exhibits anomalous diffusion with the spectral dimension d_s=4/3, that is, p_t(x,x)= t^{-2/3+o(1)}. This establishes a conjecture of Alexander and Orbach. En route we calculate the one-arm exponent with respect to the intrinsic distance., Comment: 25 pages, 2 figures. To appear in Inventiones Mathematicae

Published

2008

48. Planar Maps, Random Walks and Circle Packing

Author

Nachmias, Asaf, primary

Published

2020

49. Mean-field conditions for percolation on finite graphs

Author

Nachmias, Asaf

Subjects

Mathematics - Probability, Mathematics - Combinatorics

Abstract

Let G_n be a sequence of finite transitive graphs with vertex degree d=d(n) and |G_n|=n. Denote by p^t(v,v) the return probability after t steps of the non-backtracking random walk on G_n. We show that if p^t(v,v) has quasi-random properties, then critical bond-percolation on G_n has a scaling window of width n^{-1/3}, as it would on a random graph. A consequence of our theorems is that if G_n is a transitive expander family with girth at least (2/3 + eps) \log_{d-1} n, then the size of the largest component in p-bond-percolation with p={1 +O(n^{-1/3}) \over d-1} is roughly n^{2/3}. In particular, bond-percolation on the celebrated Ramanujan graph constructed by Lubotzky, Phillips and Sarnak has the above scaling window. This provides the first examples of quasi-random graphs behaving like random graphs with respect to critical bond-percolation., Comment: 29 pages. to appear in Geometric and Functional Analysis

Published

2007

50. Critical percolation on random regular graphs

Author

Nachmias, Asaf and Peres, Yuval

Subjects

Mathematics - Probability, Mathematics - Combinatorics

Abstract

We describe the component sizes in critical independent p-bond percolation on a random d-regular graph on n vertices, where d \geq 3 is fixed and n grows. We prove mean-field behavior around the critical probability p_c=1/(d-1). In particular, we show that there is a scaling window of width n^{-1/3} around p_c in which the sizes of the largest components are roughly n^{2/3} and we describe their limiting joint distribution. We also show that for the subcritical regime, i.e. p = (1-eps(n))p_c where eps(n)=o(1) but \eps(n)n^{1/3} tends to infinity, the sizes of the largest components are concentrated around an explicit function of n and eps(n) which is of order o(n^{2/3}). In the supercritical regime, i.e. p = (1+\eps(n))p_c where eps(n)=o(1) but eps(n)n^{1/3} tends to infinity, the size of the largest component is concentrated around the value (2d/(d-2))\eps(n)n and a duality principle holds: other component sizes are distributed as in the subcritical regime., Comment: 47 pages

Published

2007