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Yuval Peres
Yuval Peres
Yuval Peres
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Yuval Peres (Hebrew: יובל פרס; born 5 October 1963) is an Israeli mathematician best known for his research in probability theory, ergodic theory, mathematical analysis, theoretical computer science, and in particular for topics such as fractals and Hausdorff measure, random walks, Brownian motion, percolation and Markov chain mixing times.[1] Peres has been accused of sexual harassment by several female scientists.[2]

Key Information

Education and career

[edit]

Peres was born in Israel and obtained his Ph.D. at the Hebrew University of Jerusalem in 1990 under the supervision of Hillel Furstenberg.[3] After his Ph.D. Peres had postdoctoral positions at Stanford and Yale. In 1993 Peres joined the statistics department at UC Berkeley. He later became a professor in both the mathematics and statistics departments.[3] He was also a professor at the Hebrew University.[4] In 2006 Peres joined the Theory Group of Microsoft Research.[5] By 2011 he was principal researcher at Microsoft Research and manager of the Microsoft Research Theory Group, an affiliate professor of mathematics at the University of Washington and an adjunct professor at the University of California, Berkeley.[6]

He stopped being a group manager in 2012, and left Microsoft Research in 2018. He was a researcher at Kent State University from 2020 to 2022. He became a professor at the Beijing Institute of Mathematical Sciences and Applications in China in 2022.[7]

Recognition

[edit]

Peres was awarded the Rollo Davidson Prize in 1995 and the Loève Prize in 2001.[3] The work that led to the Loève Prize was surveyed in the Notices of the American Mathematical Society: "A key breakthrough was the observation that certain (hard to prove) intersection properties for Brownian motion and random walks are in fact equivalent to (easier to prove) survival properties of branching processes. This led ultimately to deep work on sample path properties of Brownian motion; for instance, on the fractal dimension of the frontier of two-dimensional Brownian motion and precise study of its thick and thin points and cover times."[3]

Peres was an invited speaker at the International Congress of Mathematicians in 2002. In 2011, he was a co-recipient of the David P. Robbins Prize for work on the maximum overhang problem. That year he also delivered the Paul Turán Memorial Lecture.[8] In 2012 he became a fellow of the American Mathematical Society.[9] In 2016, he was elected a foreign associate of the National Academy of Sciences.[10] In July 2017, he was a plenary lecturer at the Mathematical Congress of the Americas.[11]

Allegations of sexual harassment

[edit]

Peres has been accused of sexual harassment by several female scientists, including Dana Moshkovitz, Anima Anandkumar and Lisha Li. Moshkovitz said she was harassed by Peres on an informal job interview and she reported this to the Microsoft Theory Group. She also said that Peres was promoted shortly after her report.[2] Peres resigned from an affiliate position at the University of Washington in 2012. The university said he resigned "after receiving notice that the university would be investigating allegations of sexual harassment". [2]

In November 2018 three Israeli computer scientists Irit Dinur, Oded Goldreich and Ehud Friedgut wrote a letter to the community mentioning some allegations of sexual harassment against Peres and proposed a guideline of not making invitations to junior researchers that may be viewed as intimate.[2] In response Peres wrote a letter to the community and said "I regret all cases in the past where I have not followed this principle. I had no intention to harass anyone but must have been tone deaf not to recognize that I was making some people very uncomfortable. As I wrote above, I promise to adhere to this principle in the future."[12]

Books

[edit]
  • Levin, David A.; Peres, Yuval; Wilmer, Elizabeth L. (2009). Markov Chains and Mixing Times. Providence, Rhode Island: American Mathematical Society. ISBN 978-0-8218-4739-8. 2nd ed., 2017.[13]
  • Hough, J. Ben; Krishnapur, Manjunath; Peres, Yuval; Virág, Bálint (2009). Zeros of Gaussian Analytic Functions and Determinantal Processes. Providence, Rhode Island: American Mathematical Society.[14]
  • Mörters, Peter; Peres, Yuval (2010). Brownian Motion. Cambridge University Press.[15]
  • Lyons, Russell; Peres, Yuval (2016). Probability on Trees and Networks. Cambridge University Press.[16]
  • Bishop, Christopher J.; Peres, Yuval (2017). Fractals in Probability and Analysis. Cambridge University Press.[17]
  • Karlin, Anna; Peres, Yuval (2017). Game Theory, Alive. Providence, Rhode Island: American Mathematical Society.[18]
[edit]

References

[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Yuval Peres

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from Grokipedia
Yuval Peres (born 1963) is an Israeli mathematician specializing in probability theory, ergodic theory, and their applications to fractals, random walks, percolation, and related stochastic processes. He earned his PhD in 1990 from the Hebrew University of Jerusalem under the supervision of Hillel Furstenberg, followed by postdoctoral fellowships at Stanford and Yale universities, and subsequent faculty positions at the Hebrew University and the University of California, Berkeley. Peres joined Microsoft Research as a Principal Researcher in the Theory Group in 2006, where he also served as manager, and in 2023 became a professor at the Beijing Institute of Mathematical Sciences and Applications. His research spans over 350 publications, including contributions to Markov chains, Brownian motion, mixing times, and intersections with computer science topics like algorithms and learning, often in collaboration with more than 200 coauthors. Notable achievements include solving aspects of the overhang problem using random walks, advancements in gravitational allocation for sphere partitioning, and work on reconstruction on trees linking probability to biology and physics. Peres has received the Rollo Davidson Prize in 1995, the Loève Prize in 2001, and the David P. Robbins Prize in 2011, and was elected a foreign associate of the US National Academy of Sciences in 2016; he has also been an invited speaker at the International Congress of Mathematicians in 2002 and mentored 21 PhD students.

Early Life and Education

Family and Early Influences

Yuval Peres was born in , , in 1963. His mother had studied physics with a specialization in , while his father was a sociologist focused on polls. These parental backgrounds fostered an environment rich in quantitative discussions, with Peres recalling frequent conversations at the dinner table centered on statistical questions. This familial emphasis on empirical and probabilistic reasoning provided Peres's initial exposure to mathematical concepts, igniting his childhood interest in the field long before formal academic training. The intellectual pursuits of his parents, grounded in data-driven analysis rather than abstract theory, underscored a practical orientation toward numbers and that influenced his early worldview.

Academic Training and PhD

Yuval Peres completed his undergraduate studies in mathematics at Tel Aviv University, earning a B.Sc. in 1982. He pursued advanced coursework at the same institution, obtaining an M.Sc. in mathematics in 1986. Peres transitioned to the Hebrew University of Jerusalem for graduate studies starting in 1988, where he conducted research under the supervision of Hillel Furstenberg, a leading figure in ergodic theory. He received his Ph.D. in mathematics from the Hebrew University in 1990. His doctoral dissertation, titled The Limiting Measure of a Random Walk on a Fuchsian Group, examined probabilistic aspects of group actions, aligning with Furstenberg's expertise in ergodic processes and on homogeneous spaces. This work emerged within the vibrant Israeli mathematical community, known for its strengths in and probability during the late .

Professional Career

Postdoctoral and Early Faculty Positions

Following his PhD in 1990 from the , Peres held a postdoctoral position in the Department at from 1990 to 1991. He then transitioned to as a Gibbs Instructor in the Department from 1991 to 1993, a role typically awarded to promising young researchers in . These early postdoctoral appointments allowed Peres to engage in advanced work in , fostering initial collaborations with leading probabilists that contributed to his emerging reputation in the field. In 1993, Peres secured his first faculty appointment as Assistant Professor in the Statistics Department at the University of California, Berkeley, where he served until 1995. This position marked the beginning of his academic career in the United States, during which he began splitting time between Berkeley and Israel. From 1995 to 1997, he returned to the Hebrew University of Jerusalem as a Senior Lecturer in the Einstein Institute of Mathematics, advancing his teaching and research in probability and related areas. He resumed faculty duties at Berkeley as Associate Professor in the Statistics Department from 1997 to 1998, while concurrently holding an Associate Professor position at the Hebrew University from 1998 to 2000. These dual roles facilitated a transatlantic research network, enabling Peres to build a profile through joint projects on stochastic processes and ergodic theory during this formative period.

Microsoft Research Tenure

Yuval Peres joined in , in 2006 as a Principal Researcher in the Theory Group. This position marked a shift toward applying probabilistic methods to computational problems, leveraging the group's blend of mathematicians and computer scientists focused on algorithms, , and theoretical foundations of computing. His tenure provided institutional stability, enabling sustained collaboration on interdisciplinary challenges at the intersection of probability and technology. From 2008 to 2012, Peres served as manager of the Theory Group, overseeing research initiatives that integrated rigorous with practical algorithmic developments. Under his leadership, the group advanced explorations in areas such as random processes in networks and mixing times for Markov chains, contributing to foundational tools used in and systems. This managerial role emphasized fostering environments for cross-disciplinary innovation, distinct from purely academic settings by prioritizing scalable, tech-applicable outcomes. Peres's work during this period, spanning until 2018, centered on probabilistic models with direct relevance to and , including applications to graph algorithms and primitives. The Redmond lab's resources supported extensive computational verification of theoretical results, enhancing the empirical grounding of abstract probability theorems in real-world tech scenarios. His contributions solidified Research's reputation in , bridging with industry-scale problem-solving.

Recent Academic Affiliations

Following his tenure at Microsoft Research, Peres joined the Beijing Institute of Mathematical Sciences and Applications (BIMSA) in 2023 as a professor. This affiliation marks a shift to an international academic institution focused on advancing mathematical research through global partnerships. At BIMSA, Peres has maintained active involvement in educational and scholarly activities, including delivering lectures on foundational topics in probability. In April 2024, he presented "Some Highlights from the History of Probability" at Tsinghua University's Qiuzhen College, covering key developments in the field. He also contributed to the institute's Mathematical Communication series from March to May 2024, alongside other faculty. Additional engagements include a plenary talk at the International Congress of Chinese Mathematicians (ICCM) in January 2024 on elliptic equations in conductivity problems. As of mid-2025, Peres remains affiliated with BIMSA, continuing to support its probability research group and collaborative initiatives. This position underscores ongoing international mobility in his career, building on prior U.S.-based roles while fostering connections in Asia's mathematical community.

Research Contributions

Core Areas in Probability and Analysis

Peres's primary expertise lies in , where he investigates foundational aspects of stochastic systems through rigorous analytical methods. His work integrates , which studies long-term average behaviors in dynamical systems, with to uncover deterministic structures within random evolutions. Additionally, Peres has advanced understanding in fractals, exploring self-similar geometric patterns arising in probabilistic contexts, and , applying enumerative techniques to discrete random structures. A core focus of his research involves random processes, particularly random walks on graphs and spaces, which model particle diffusion and connectivity under uncertainty. Peres examines , the continuous analogue of random walks, analyzing its paths' regularity and intersection properties via metric and potential-theoretic tools. In , he probes phase transitions in lattice models where sites or bonds open randomly, determining connectivity thresholds and scaling behaviors. Similarly, his studies of random graphs address the emergence of giant components and spectral properties as edges form probabilistically, revealing universal laws in network formation. These investigations emphasize the mechanistic drivers of , such as recurrence and mixing rates, grounded in empirical simulations and asymptotic analysis. Peres has authored over 350 publications in these domains, consistently prioritizing derivations from basic probabilistic axioms to explain observed phenomena in environments, such as dimension estimates for sets generated by random iterations. This body of work highlights interconnections between probability and , where first-order dependencies in random variables dictate macroscopic outcomes, avoiding reliance on unverified assumptions.

Key Theorems and Applications

Peres, in collaboration with , Peled, and Romik, established the existence of a non-degenerate gravitational allocation for Poisson point processes in of dimension d3d \geq 3, where the allocation partitions space into cells of equal measure associated with each point via minimization of a . This result, published in the in 2010, provides a probabilistic construction for fair spatial division, contrasting with deterministic failures in lower dimensions. Extensions to uniform points on , developed with and Zhai, demonstrate that the gravitational partition yields cells with diameters bounded by O(n1/2(logn)1/2)O(n^{-1/2} (\log n)^{1/2}) with high probability as nn \to \infty. In matching theory, Peres contributed to theorems on stable matchings for point processes in high dimensions. With Holroyd and Martin, he proved that for a translation-invariant ergodic in Rd\mathbb{R}^d with d3d \geq 3, the Poisson-weighted infinite tree construction yields a unique stable matching with probability 1, where stability is defined via infinite bipartite graphs. This extends classical results on perfect matchings in random point sets and applies to optimization problems in spatial allocation, including load balancing in distributed systems. Recent work by Peres with Amir and Nazarov analyzes the convergence of p\ell^p-energy minimization dynamics on connected graphs with nn vertices, where vertex values update iteratively to minimize e={i,j}Exixjp\sum_{e=\{i,j\} \in E} |x_i - x_j|^p for p>1p > 1. They derive sharp polynomial bounds on the number of iterations to ϵ\epsilon-consensus: O(n2(11/p)log(1/ϵ))O(n^{2(1-1/p)} \log(1/\epsilon)) for 1<p<31 < p < 3, with a phase transition at p=3p=3 where the exponent shifts due to stricter convexity properties. For p=2p=2, this recovers linear averaging bounds, while higher pp accelerates convergence in heterogeneous initial conditions. These minimization dynamics find applications in for consensus algorithms and function learning on graphs, where energy minimization enforces smoothness constraints akin to gradient flows. In recurrent networks, Peres and Nachmias proved in 2025 that every infinite recurrent rooted network admits a potential function tending to along paths from the root, analogous to Evans-Nakai theorems for elliptic operators, enabling bounds on escape probabilities and functions. This result supports analysis of long-term behavior in optimization over recurrent structures, with simulations confirming divergence rates in finite approximations.

Collaborative Works and Broader Impact

Peres has engaged in numerous collaborations with prominent probabilists, including Gideon Amir, Fedor Nazarov, and Asaf Nachmias, focusing on probabilistic processes on graphs and networks. For instance, in a 2025 paper, Peres coauthored with Amir and Nazarov a study establishing sharp bounds for the convergence rate of p\ell^p-energy minimization on graphs, revealing a at p=3p=3. Similarly, joint work with Nachmias demonstrated that every recurrent network admits a potential function tending to infinity, advancing understanding of harmonic functions in discrete settings. These partnerships underscore Peres's role in bridging analytic techniques with stochastic dynamics. His collaborative efforts extend influence to , notably through developments in learning and consensus algorithms via energy minimization. learning dynamics, where updates minimize local constants on graph vertices, achieve ϵ\epsilon-consensus in time under specific conditions, with implications for distributed optimization and approximation algorithms on networks. Such results draw on probabilistic tools to inform computational efficiency, as explored in joint analyses of edge-averaging processes with random initial opinions. Beyond technical contributions, Peres has impacted interdisciplinary through expository lectures on probability's historical . In April 2024, he delivered a talk at BIMSA outlining key milestones in probability theory's evolution, from foundational concepts to modern applications, emphasizing empirical and structural insights over interpretive overlays. These presentations highlight causal structures inherent in probabilistic models, fostering cross-field appreciation without reliance on contested narratives.

Recognition and Honors

Major Awards

Peres was awarded the Davidson Prize in 1995 by the and the London Mathematical Society for outstanding young probabilists under age 35, recognizing his early contributions to stochastic processes and interacting particle systems. In 2001, he received the Loève International Prize in Probability from the and Berkeley, honoring his fundamental advances in , including work on random walks, , and . Peres shared the 2011 David P. Robbins Prize from the with colleagues for resolving the harmonic series overhang problem, demonstrating that stacked blocks can achieve exponential overhang proportional to the , a result verified through rigorous probabilistic constructions. In 2016, he was elected a foreign associate of the U.S. , an honor bestowed for distinguished and continuing achievements in original research in probability and analysis, including scaling limits, random media, and computational aspects of processes.

Professional Memberships and Lectureships

Peres was elected a foreign associate of the United States National Academy of Sciences in May 2016. He is also a Fellow of the and the Institute of Mathematical Statistics. Peres has served on s for probability-focused journals, including as editor of the Annals of Applied Probability in 2009 and as a member of the for Combinatorics, Probability and Computing. He has additionally held roles on scientific advisory boards for the Pacific Institute for the Mathematical Sciences (PIMS), the American Institute of Mathematics (AIM), and the Institute for Pure and Applied Mathematics (IPAM). Peres delivered invited lectures at the International Congress of Mathematicians in Beijing in August 2002 and at the European Congress of Mathematics in Amsterdam in July 2008. He served as Miller Professor at the University of California, Berkeley, from July 2002 to June 2003, delivering lectures during this visiting position. In July 2017, he gave a plenary lecture at the Mathematical Congress of the Americas in Montreal.

Controversies

Sexual Harassment Allegations

In late , mathematician Pachter published a blog post detailing reports from multiple women who had experienced unwanted advances and by Peres during academic interactions, noting that these incidents were communicated to colleagues and that Peres had previously been sanctioned for such behavior without cessation. Pachter's account described a pattern where, following confrontations by senior colleagues, additional reports emerged from junior researchers, emphasizing the persistence of the alleged conduct in professional settings. By November 2019, Pachter reported allegations from at least five junior female scientists who had separately informed recognized mathematicians of unwanted advances by Peres, framing these as part of ongoing issues tied to his academic engagements. This disclosure coincided with controversy over Peres delivering a scheduled at the , on November 6, 2019, hosted by the Mathematics Department despite prior notifications to organizers about the reports. A December 5, 2019, article in The California Aggie, UC Davis's student newspaper, corroborated the existence of a series of allegations against Peres predating the , attributing the claims to accounts from affected individuals in the mathematical community and highlighting the event's occurrence amid these reports. The piece noted that the allegations involved a pattern of behavior toward junior female colleagues, though specific details from accusers remained limited to general descriptions of advances in professional contexts.

Professional Repercussions and Responses

Peres resigned from his affiliate professorship at the in 2012 after the institution notified him of an impending investigation into allegations of . In 2019, the responded to a request by stating it possessed no information or records related to any by Peres during his tenure there. No formal criminal charges or convictions stemming from these allegations have been reported. In addressing the accusations, Peres acknowledged discomfort caused to others without denying specific incidents, stating: "I had no intention to harass anyone but must have been tone deaf not to recognize that I was making some people very uncomfortable." This response, conveyed through intermediaries and reported in academic discussions, has been interpreted by critics as insufficient accountability, while lacking a broader public statement or apology directly from Peres. Peres has sustained professional activity post-allegations, retaining affiliations with Microsoft Research and the University of California, Berkeley as of January 2025. He delivered mathematical lectures as recently as August 2025, indicating minimal interruption to his scholarly output or invitations to speak. The handling of Peres's case has fueled discussions in the mathematics community about institutional due process versus reputational consequences in the absence of legal findings, with some advocating boycotts of his appearances to prioritize complainant safety and cultural reform. Others contend that continued engagement with his technical contributions reflects a pragmatic separation of professional merit from personal conduct, amid broader critiques of uneven enforcement in academia. These viewpoints underscore tensions between individual accountability and the lack of substantiated disciplinary outcomes.

Publications

Authored Books

Peres co-authored Markov Chains and Mixing Times (first edition, 2009; second edition, 2017) with David A. Levin and, for the first edition, Elizabeth L. Wilmer, published by the American Mathematical Society. The text introduces the modern theory of Markov chains, emphasizing convergence rates to stationary distributions via mixing times, with applications to algorithms and statistical physics; it includes exercises and proofs designed for graduate students transitioning to research. In collaboration with Russell Lyons, Peres authored Probability on Trees and Networks (2016), published by as part of the Cambridge Series in Statistical and Probabilistic Mathematics. This comprehensive work examines probabilistic behaviors on trees and weighted graphs, covering topics such as random walks, spanning trees, and reconstruction problems, with a focus on accessible derivations and open problems to foster pedagogical depth and influence in discrete probability. Peres co-authored Brownian Motion (2010) with Peter Mörters, published by Cambridge University Press. The book provides a graduate-level treatment of sample path properties of Brownian motion, linking it to partial differential equations and fractal geometry, while incorporating exercises that highlight connections to ongoing research in stochastic processes. With Anna R. Karlin, Peres wrote Game Theory, Alive (2016), published by the American Mathematical Society. This textbook surveys noncooperative and cooperative game theory, from zero-sum games to Nash equilibria and mechanism design, blending rigorous mathematics with examples from economics and computer science to serve as an engaging introduction for advanced undergraduates and graduates. Peres collaborated with Christopher J. Bishop on Fractals in Probability and Analysis (2017), published by Cambridge University Press. The volume explores fractal dimensions and measures arising in random processes and harmonic analysis, offering geometric measure theory tools and proofs tailored for readers building intuition toward independent contributions in these areas. Additionally, Peres co-authored Zeros of Gaussian Analytic Functions and Determinantal Point Processes (2009) with John B. Hough, Manjunath Krishnapur, and Bálint Virág, part of the American Mathematical Society's University Lecture Series. It analyzes repulsion in point processes via Gaussian zeros and determinantal structures, with emphasis on conformal invariance and applications to random matrix theory, structured to guide students from fundamentals to advanced probabilistic insights.

Selected Research Papers

Peres's contributions to include the 2004 paper "Geometry of the uniform spanning forest: phase transitions in dimensions 4,8,12,…," coauthored with Oded Schramm and Wendelin Werner, which identifies critical dimensions for phase transitions in the uniform spanning forest model, linking it to conformal invariance and scaling limits. This work advanced understanding of random spanning trees in higher dimensions, building on foundational results in two dimensions. In the study of , a key paper is "Thick points for planar and the Erdős–Taylor conjecture on " from 2001, where Peres and B. B. Mandelbrot resolved the conjecture by characterizing the of thick points—regions visited disproportionately often by the path. The analysis employed multifractal techniques, providing precise logarithmic corrections to expected occupation measures. Another influential contribution is the 2004 collaboration with Amir Dembo, , and Ofer Zeitouni on "Cover times for and in two dimensions," published in the . This introduced a unified approach using majorizing measures to derive sharp asymptotics for cover times on the and graphs, resolving longstanding conjectures about logarithmic factors in two-dimensional settings. More recently, in 2025, Peres coauthored "Every recurrent network has a potential tending to infinity" with Peter V. Gordon and Fedor Nazarov, proving the existence of unbounded potentials in infinite recurrent electrical networks, analogous to classical results by Evans and Nakai for domains. The proof leverages cycle space decompositions and resistance estimates, extending to graph settings.

References

  1. https://imstat.org/2016/11/17/profile-yuval-peres/
  2. https://www.pnas.org/doi/10.1073/pnas.1813856115
  3. https://bimsa.net/people/yperes/
  4. https://www.nasonline.org/directory-entry/yuval-peres-vxshc8/
  5. https://www.stat.berkeley.edu/~aldous/Loeve/peres.pdf
  6. https://pmc.ncbi.nlm.nih.gov/articles/PMC6166848/
  7. https://www.semanticscholar.org/paper/Profile-of-Yuval-Peres-Ravindran/dab528dd50d4293f6bf83196d43edfabd428a851
  8. https://bimsa.net/doc/cv/yperes.pdf
  9. https://genealogy.math.ndsu.nodak.edu/id.php?id=22523
  10. https://bimsa.net/doc/cv/yperes.pdf?v=2BrRf
  11. https://www.microsoft.com/en-us/research/video/intuitive-proofs-of-ergodic-theorems/
  12. https://www.bimsa.cn/detail/yperes.html
  13. https://qzc.tsinghua.edu.cn/en/info/1128/3482.htm
  14. https://bimsa.net/activity/MathematicalCommunication/
  15. https://2024iccm.simis.cn/schedule
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  18. https://projecteuclid.org/journals/annals-of-probability/volume-49/issue-1/Gravitational-allocation-for-uniform-points-on-the-sphere/10.1214/20-AOP1452.full
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  20. https://arxiv.org/abs/2508.19411
  21. https://arxiv.org/abs/2507.05793
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  23. https://comptes-rendus.academie-sciences.fr/mathematique/item/10.5802/crmath.758.pdf
  24. https://yuvalperes.com/wp-content/uploads/2025/07/CONSENSUS_VIA_ENERGY_MINIMIZATION_AND_LIPSCHITZ_LEARNING-21.pdf
  25. https://www.researchgate.net/publication/395034549_Convergence_rate_of_ellp-energy_minimization_on_graphs_sharp_polynomial_bounds_and_a_phase_transition_at_p3
  26. https://www.youtube.com/watch?v=zTqtjFYD8yw
  27. https://www.youtube.com/watch?v=ej46HW92pJc
  28. https://newsarchive.berkeley.edu/news/berkeleyan/2001/10/10_award.html
  29. https://www.microsoft.com/en-us/research/blog/two-microsoft-researchers-elected-to-national-academy-of-sciences/
  30. https://imstat.org/past-editors-of-ims-journals/
  31. https://www.cambridge.org/core/journals/combinatorics-probability-and-computing/information/about-this-journal/editorial-board
  32. https://mca2017.mcofamericas.org/scientific-program/plenary-speakers.html
  33. https://liorpachter.wordpress.com/2018/11/28/yuval-peres/
  34. https://liorpachter.wordpress.com/2019/11/06/an-outrage-at-uc-davis/
  35. https://theaggie.org/2019/12/05/yuval-peres-math-professor-with-series-of-sexual-misconduct-allegations-levied-against-him-gives-lecture-at-uc-davis/
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