Fact-checked by Grok 2 weeks ago

Akshay Venkatesh

Akshay Venkatesh is an Indian-Australian renowned for his profound and wide-ranging contributions to , arithmetic geometry, , and related fields, earning him the in 2018 for bridging diverse mathematical domains through innovative techniques. Born in 1981 in , , Venkatesh moved to , , at the age of two and grew up there, displaying exceptional talent in from a young age. He earned bronze medals in the at age 11 and the at age 12, completed high school by 13, and graduated with first-class honors in from the at 16, becoming its youngest enrollee. Venkatesh then pursued a PhD at under the supervision of , completing it in 2002 at age 20. Following his doctorate, Venkatesh held a C.L.E. Moore Instructorship at and positions at before joining as a professor in 2008, where he advanced key problems in , homogeneous dynamics, and the . In 2018, he became the Robert and Luisa Fernholz Professor in the School of Mathematics at the Institute for Advanced Study in , a position he continues to hold as of 2025. His research integrates tools from , , and automorphic forms to tackle challenges such as subconvexity bounds for L-functions, asymptotic growth of torsion in arithmetic groups, and improvements to Cohen-Lenstra heuristics on class groups. Venkatesh's accolades include the 2016 in for his foundational work blending diverse techniques in modern , the 2007 and Packard Fellowship, the 2008 , election as a in 2019, membership in the in 2023, and selection as a 2025 Fellow of the . His interdisciplinary approach has not only resolved longstanding conjectures but also inspired new connections across , emphasizing equidistribution problems and the arithmetic of shapes.

Early life and education

Childhood in Australia

Akshay Venkatesh was born on November 21, 1981, in , , to Indian parents of origin. His father, a mechanical , and his mother, Svetha Venkatesh, a of , relocated the family to , , when he was two years old, seeking better opportunities. Growing up in , Venkatesh was the only child in the family, and his parents provided strong support for his intellectual development, including access to their college-level textbooks from their engineering and academic backgrounds. From a young age, Venkatesh displayed an exceptional aptitude for , often engaging in self-directed learning. By around age seven, he maintained a spiral filled with mathematical explorations, fostering his early passion for the subject. His parents' encouragement played a key role, as they allowed him to pursue advanced topics independently while ensuring a nurturing environment that balanced his prodigious talents with a relatively normal childhood in . This familial support helped him avoid the isolation sometimes associated with child prodigies. Venkatesh's talents soon earned him recognition as a . He skipped multiple grades in school, completing his high school education by age 13, and demonstrated outstanding performance in mathematics competitions, including the Australian Mathematics Competition. At age 11, he won a at the in 1993, and at age 12, he secured a at the in 1994, becoming the first Australian to medal in both events at such a young age. These achievements highlighted his exceptional abilities and paved the way for his early enrollment at the .

Undergraduate studies

Venkatesh enrolled at the (UWA) in 1995 at the age of 13, becoming the youngest student in the institution's history to commence a degree program. He pursued a four-year with Honours, initially including , physics, and , but soon dropped the engineering component to focus on and physics. By accelerating his studies, he completed the degree in three years, graduating in 1998 at age 16 with first-class honours in . His coursework covered advanced topics in , , and related areas, allowing him to skip introductory courses and engage directly with second-year material upon entry. Venkatesh's exceptional performance culminated in him being awarded the J.A. Woods Memorial Prize, recognizing him as the most outstanding graduating student from the Faculties of , , , or Medical Science at UWA. During his honours year, Venkatesh undertook projects that introduced him to , building on his earlier interest from mathematical training, while receiving guidance from local faculty including early mentor Professor Cheryl Praeger, who supported his development in and . Despite being significantly younger than his peers, Venkatesh experienced a supportive university environment that facilitated his adjustment and emphasized intellectual growth over social hurdles.

Graduate studies

In 1998, at the age of 16, Venkatesh moved to the to pursue his in at , where he worked under the supervision of . He completed his doctoral studies in 2002, becoming one of the youngest recipients of a from Princeton at age 20. Venkatesh's thesis, titled Limiting Forms of the Trace Formula, centered on and , with a particular emphasis on automorphic forms and L-functions. Key results included an elementary classification of certain automorphic forms on GL(2) via a limiting process inspired by Langlands' ideas, as well as a converse theorem establishing under conditions on twisted L-functions. The work also generalized bounds on the dimension of spaces of cusp forms, improving previous estimates such as Duke's bound for weight 1 forms over to arbitrary number fields. During his graduate years at Princeton, Venkatesh benefited from immersion in a leading center for , attending seminars led by prominent figures like Sarnak and engaging in early collaborations that shaped his research trajectory. This environment fostered his development amid interactions with top mathematicians exploring related topics in and automorphic representations.

Academic career

Early appointments

Following his PhD completion in 2002, Venkatesh held his first postdoctoral position as a C.L.E. Moore Instructor at the () from 2002 to 2004, a prestigious role for promising young mathematicians involving both research and teaching. During this time, he began transitioning to independent research while contributing to 's academic community. In 2004, he was appointed a by the , a two-year fellowship (2004–2006) recognizing exceptional early-career talent in and providing substantial support for original work. Venkatesh's initial faculty appointment came at University's Courant Institute of Mathematical Sciences, where he joined as an in 2004 at the age of 23, one of the youngest such hires in the institution's history. Concurrently, he served as a Visiting Member at the Courant Institute from 2004 to 2005 and as a Member at the Institute for Advanced Study from 2005 to 2006, allowing him to foster connections across leading mathematical centers. During these early appointments, Venkatesh produced foundational publications advancing subconvexity bounds and equidistribution in , notably his 2005 paper "Sparse equidistribution problems, period bounds, and subconvexity," which introduced geometric methods to bound periods of automorphic forms and resolve longstanding problems like Linnik's equidistribution conjecture for integral points on spheres. These works built key collaborations, such as with Philippe Michel on ergodic methods for L-functions and equidistribution. He also began supervising students, including his first advisee, Prasanna Vishe, at NYU (2005–2008), while developing a teaching approach emphasizing conceptual depth in advanced courses.

Stanford University

Akshay Venkatesh joined as a full professor of in 2008, following his tenure as an at University's . He held this position from 2008 to 2018. During his decade at Stanford, Venkatesh contributed significantly to the university's department, particularly in strengthening its research community through his expertise in and related fields. Venkatesh collaborated closely with colleagues such as , another prominent mathematician in the department, including co-advising PhD students on interdisciplinary projects involving and . For instance, they jointly supervised theses that bridged these areas, enhancing the department's collaborative research environment. His presence helped elevate Stanford's group, fostering a vibrant setting for advanced studies in automorphic forms and equidistribution problems. In addition to research, Venkatesh balanced teaching responsibilities, offering courses such as Math 109 on , which emphasized foundational concepts in . He mentored several PhD students during this period, including Tony Feng (graduated 2016), who went on to pursue a successful academic career. This era marked a highly productive phase in Venkatesh's career, with numerous publications that culminated in major accolades, including the 2016 and the 2018 , awarded while he was still affiliated with Stanford. His work underscored a commitment to both scholarly output and educational mentorship within the institution.

Institute for Advanced Study

In 2018, Akshay Venkatesh joined the (IAS) as a in the School of , where he holds the Robert and Luisa Fernholz Professorship. This appointment marked his transition from to the IAS, an independent institution dedicated to advanced theoretical work. At IAS, faculty positions like Venkatesh's prioritize pure with no formal teaching or degree-granting responsibilities, enabling deep focus on long-term mathematical inquiries without administrative duties. Venkatesh's role at IAS involves leading and participating in collaborative programs that bring together mathematicians from around the world. He has organized workshops, such as the Collaborative Workshop in held in June 2024, which explored connections between algebraic geometry and related fields. Additionally, as chair of the oversight committee for the , he contributes to recognizing outstanding work in . In 2025, Venkatesh engaged in public outreach through lectures, including the Phillips Lecture Series at in October and a talk on conformal mapping at the in October. He also collaborates with visiting members and postdoctoral fellows on projects in , , and , fostering interdisciplinary exchanges within the IAS community. Venkatesh's tenure at IAS has enhanced the institution's appeal to emerging talent, drawing researchers eager to work in an environment conducive to uninterrupted exploration of fundamental problems. The absence of teaching and administrative burdens allows him to mentor through seminars and joint research, amplifying the impact of IAS programs on global mathematical progress.

Research contributions

Analytic number theory

Akshay Venkatesh's research in analytic number theory has profoundly influenced the study of L-functions and their applications to arithmetic problems. Central to his contributions are subconvexity bounds, which provide stronger estimates than the classical convexity bounds derived from the functional equation of L-functions. These bounds are essential for understanding the growth of L-functions on the critical line Re(s) = 1/2 and have far-reaching implications for the distribution of primes and values of arithmetic functions such as the divisor function. Building on the pioneering work of Hardy and Littlewood, who developed the circle method to handle exponential sums, Venkatesh integrated modern spectral methods, including the Kuznetsov trace formula, to achieve breakthroughs in these areas. A landmark result is Venkatesh's collaboration with Philippe Michel on the subconvexity problem for L-functions attached to automorphic representations on GL(2) over a fixed number field. Their work resolves subconvexity uniformly in all aspects, including the conductor and spectral parameters. For the Dirichlet L-function case, which corresponds to GL(1), they established the bound |L(1/2 + it, \chi)| \ll (q (1 + |t|))^{1/4 - \delta} for some absolute \delta > 0, where q is the conductor of the primitive character \chi modulo q and t > 0. This improves the convexity bound of (q(1+|t|))^{1/4 + \epsilon} and was proved using amplified moments, Poisson summation, and non-vanishing results for L-functions. The GL(2) extension applies similarly to holomorphic cusp forms, yielding |L(1/2 + it, f)| \ll (q(1+|t|))^{1/4 - \delta} for newforms f of level q and weight bounded relative to t. This result, published in 2010, unified prior partial advances and opened new avenues for estimating moments of L-functions. Venkatesh also advanced bounds for higher-degree L-functions through his work on triple products. Bernstein and Reznikov proved a subconvexity bound for the special value of the triple L-function L(1/2, \pi \times \sigma \times \tau), where \pi, \sigma, \tau are cuspidal automorphic representations on GL(2), estimating the triple period integral and thereby controlling the central value. This estimate, which beats convexity in the spectral aspect, relies on and approximate functional equations, providing key tools for applications to moments of L-functions and in arithmetic progressions. Such results facilitate non-vanishing theorems and improve estimates for the of primes via sieving methods. In addition to L-functions, Venkatesh's work on and Weyl sums has refined classical techniques for arithmetic applications. In his 2010 paper on sparse equidistribution problems, he developed geometric methods to bound periods of automorphic forms, replacing traditional mean value theorems with equidistribution on homogeneous spaces. This led to improved estimates for Weyl sums of the form \sum_{n \leq X} e( \alpha n^k ), where e(x) = e^{2\pi i x}, achieving sub-Weyl exponents in certain sparse settings and contributing to divisor bounds via . These techniques build on Hardy-Littlewood's methods and have been applied to , yielding progress on the distribution of arithmetic functions like the d(n) in short intervals. Overall, Venkatesh's analytic tools have enhanced the quantitative understanding of prime distributions and arithmetic statistics.

Homogeneous dynamics and equidistribution

Venkatesh has made significant contributions to the study of homogeneous dynamics, particularly through the application of flows on quotient spaces such as \mathrm{SL}(n,\mathbb{R})/\mathrm{SL}(n,\mathbb{Z}) to analyze the equidistribution of horocycles and unipotent flows. These spaces serve as models for arithmetic quotients, where unipotent subgroups generate flows whose ergodic properties reveal deep connections between dynamics and . His approach leverages the geometric structure of these homogeneous spaces to establish equidistribution results that quantify how orbits become uniformly distributed with respect to invariant measures. A key result is Venkatesh's on the equidistribution of expanding , developed in his work on sparse equidistribution problems. In this framework, he demonstrates that long segments of horocycle orbits on quotients by lattices equidistribute effectively, with error terms controlled by period bounds derived from geometric methods. This addresses challenges in sparse settings, where traditional ergodic arguments fall short, by combining estimates with dynamical mixing. In joint work with Manfred Einsiedler, , and Philippe Michel, Venkatesh established equidistribution theorems for families of periodic orbits on homogeneous spaces, focusing on their distribution towards the as parameters vary. This series of results, including applications to Duke's for quadratic fields, provides effective rates and resolves long-standing problems in the equidistribution of such orbits under diagonal actions. The proofs rely on measure rigidity and approximation techniques tailored to arithmetic lattices. Venkatesh further advanced effective equidistribution rates for closed orbits of semisimple groups on homogeneous spaces in collaboration with Einsiedler and Gregory Margulis. Their proves polynomial error terms for the equidistribution of these orbits, assuming technical conditions on the and group structure, thus making the results quantitatively useful for arithmetic applications. This work extends classical rigidity results to obtain explicit bounds. Central to these achievements are extensions of Ratner's theorems on measure classification for unipotent flows, which Venkatesh adapts to yield effective versions in settings. He incorporates mixing properties of arithmetic groups, originally explored in the seminal work of Alex Eskin and , to control discrepancies in orbit distributions. These techniques enable proofs of equidistribution with optimal rates, distinguishing dynamical approaches from purely analytic ones. Venkatesh's methods have applications to lattice point problems, such as counting integer solutions on spheres via Linnik's ergodic method in joint work with and Philippe Michel, where unipotent flows equidistribute to approximate volumes effectively. Additionally, they improve the circle method by providing equidistribution estimates that enhance major arc contributions in additive problems. These dynamical insights link to analytic bounds in , offering alternative proofs with stronger error terms.

Representation theory and automorphic forms

Venkatesh has made significant contributions to the of reductive groups, particularly through his work on automorphic representations of GL(n). In his PhD thesis, he developed limiting forms of trace-type formulas, such as the Kuznetsov formula, for GL(2) over number fields, providing tools for the of automorphic forms and their associated representations. These build on Arthur's foundational work, offering insights into the distribution of representations in the space of automorphic forms. A key theme in Venkatesh's research is the exploration of local-global principles in the context of automorphic representations. He established local-global principles for representations of quadratic forms over the integers, proving that such representations hold globally if they hold locally in sufficiently high codimension (≥7). This result has implications for understanding the arithmetic of representations associated to orthogonal groups, bridging local representation theory with global automorphic forms. Extending these ideas to GL(n), Venkatesh applied the Burger-Sarnak method to operations on the unitary dual, deriving estimates for the restriction of representations from GL(n, E) to GL(n, F) and advancing the spectral theory of automorphic forms on these groups. Venkatesh has advanced aspects of the , particularly in relating Galois representations to automorphic forms on GL(n). His contributions emphasize compatibility conditions and lifting theorems, providing evidence for correspondences between modular forms and Galois representations in higher dimensions. In parallel, Venkatesh has integrated topological methods into , using of arithmetic groups to probe arithmetic invariants. For instance, he introduced derived Hecke algebras that act on the , revealing graded structures that connect representation-theoretic data to topological features of locally symmetric spaces. This synthesis highlights hidden symmetries, such as potential actions of on periods of automorphic forms. Central to his impact is the development of subconvexity bounds for automorphic L-functions, which refine convexity estimates and have profound implications for . Jointly with Philippe Michel, Venkatesh resolved the subconvexity problem for L-functions attached to GL(2) automorphic representations over a fixed number field, achieving uniformity in all aspects including the . A representative result is the growth estimate for twisted L-functions: |L(1/2, \pi \times \chi)| \ll q^{1/4 - \epsilon} for some \epsilon > 0, where \pi is a fixed cuspidal automorphic representation on GL(2) and \chi is a of conductor q. This bound breaks the convexity barrier and facilitates applications to the of representations and problems like non-vanishing of L-values. Venkatesh's broader of —via techniques in analyzing the persistent features of classes—further enriches this framework, yielding invariants that capture the interplay between and . More recently, in collaboration with David Ben-Zvi and Yiannis Sakellaridis, Venkatesh has proposed a duality in the relative (as of 2024). This framework pairs Hamiltonian spaces for a group G with those for its Langlands dual, categorifying relationships between automorphic periods and L-functions. Their work, detailed in a substantial manuscript, draws analogies to in physics, suggesting unified structures across , , and , and has sparked new conjectures on relative character identities and quantization.

Awards and honors

Major prizes

Akshay Venkatesh received the in 2018 from the , the highest honor in , awarded to mathematicians under the age of 40 for outstanding achievements. The citation praised his "synthesis of , homogeneous dynamics, , and , which has resolved long-standing problems and opened new applications." This recognition highlighted his broad impact across multiple mathematical fields, marking him as the second recipient of the award. In 2016, Venkatesh was awarded the in the by the Science Foundation, a $100,000 honor recognizing exceptional contributions to the field. The prize commended his "exceptionally wide ranging, foundational and creative contributions to modern ," particularly in areas like automorphic forms, , and . This accolade underscored his role in advancing foundational aspects of during his tenure at . Earlier, in , Venkatesh earned the , awarded annually to a young mathematician for outstanding work in , , or related fields, with a focus on in his case. The noted his contributions to as the basis for the award, given while he was an at New York University's Courant Institute. This prize, endowed by the family of Raphael Salem, affirmed his early promise in harmonic analytic techniques applied to number-theoretic problems. That same year, 2007, he was granted a David and Lucile Packard Fellowship for early-career scientists, providing $625,000 over five years to support innovative research. The fellowship supported his investigations into L-functions and prime number behavior, building on his prior Clay Research Fellowship from 2004 to 2006, which had similarly funded his postdoctoral work at the Institute for Advanced Study. These fellowships highlighted the long-term impact of his foundational research in number theory. Venkatesh received the in 2008 from Shanmugha Arts, Science, Technology & Research Academy, a $10,000 award for mathematicians under 32 making significant contributions in areas influenced by , such as . The prize recognized his exceptional work in , including breakthroughs in arithmetic groups and L-functions, shortly after his move to . This honor positioned him among emerging leaders in Ramanujan-inspired mathematics.

Academy memberships and fellowships

Akshay Venkatesh was elected a (FRS) in 2019, recognizing his substantial contributions to the improvement of natural knowledge, particularly in . In 2023, he was elected to membership in the (NAS), one of the highest honors for U.S. scientists and engineers, awarded for distinguished and continuing achievements in original research. Venkatesh was elected a member of the American Academy of Arts and Sciences in 2024, joining an honorary society that honors excellence and leadership across disciplines including . He was named a Fellow of the (AMS) in the class of 2025, an honor bestowed on mathematicians for outstanding contributions to the field and service to the profession. In 2019, Venkatesh was admitted as a Corresponding Fellow of the Australian Academy of , acknowledging his significant contributions to from outside . These academy memberships and fellowships underscore Venkatesh's sustained impact on , highlighting his role as a leading figure in the global scientific community.

References

  1. [1]
    A Number Theorist Who Bridges Math and Time | Quanta Magazine
    Aug 1, 2018 · Akshay Venkatesh, a former prodigy who struggled with the genius stereotype, has won a Fields Medal for his “profound contributions to an exceptionally broad ...
  2. [2]
    Akshay Venkatesh wins Fields Medal - Stanford Report
    Aug 2, 2018 · Akshay Venkatesh, a professor of mathematics at Stanford University, has won the 2018 Fields Medal, the highest honor in math.
  3. [3]
    Laureates 2016 - Prof. Akshay Venkatesh - Infosys Prize
    Prof. Akshay Venkatesh is a very broad mathematician who has worked at the highest level in number theory, arithmetic geometry, topology, automorphic forms and ...
  4. [4]
    Akshay Venkatesh | American Academy of Arts and Sciences
    Oct 10, 2025 · Akshay Venkatesh is a mathematician and the Robert and Luisa Fernholz Professor at the Institute for Advanced Study.
  5. [5]
    Professor Akshay Venkatesh FRS - Fellow Detail Page | Royal Society
    Professional position. Professor, School of Mathematics, Institute for Advanced Study, Princeton University. Professor Akshay Venkatesh FRS Elected 2019.
  6. [6]
    Maths professor elected member of the National Academy of Sciences
    May 17, 2023 · Professor Akshay Venkatesh, the youngest-ever student to enrol at The University of Western Australia, has been elected a member of the National Academy of ...Missing: position | Show results with:position
  7. [7]
    At the Centre of the Mathematical Universe - Bhāvanā
    Akshay Venkatesh was just two years old when he moved to Perth, Australia. Barely into his teens, his prodigious talent came to be quickly evident.
  8. [8]
    Fields Medal: Aussie genius Akshay Venkatesh wins 'Nobel Prize of ...
    Aug 1, 2018 · When Akshay Venkatesh was 13 years old and had completed his high school studies, he told the ABC he was aiming to "maybe become a ...
  9. [9]
    Akshay Venkatesh - International Mathematical Olympiad
    7, 7, 7, 2, 28, 102, 73.70%, Bronze medal. Results may not be complete and may include mistakes. Please send relevant information to the webmaster: webmaster@ ...
  10. [10]
    Akshay Venkatesh Awarded Honorary Doctorate from University of ...
    Aug 21, 2019 · Venkatesh, who won the Fields Medal in 2018, enrolled at the University of Western Australia in 1995 at the age of thirteen and graduated three ...
  11. [11]
    An Australian takes top honours in the prestigious Fields Medal in ...
    Aug 1, 2018 · I was in second year at the University of Western Australia when Akshay Venkatesh skipped first year maths and jumped straight into my classes.
  12. [12]
    UWA awards honorary doctorate to youngest student
    Sep 25, 2024 · The 37-year-old mathematician was just 13 when he enrolled at UWA in a four-year Bachelor of Science with Honours, which he completed in three ...
  13. [13]
    EXPERT REACTION: Aussie mathematician wins Fields medal
    Aug 2, 2018 · 'Akshay became the youngest ever student to study at UWA and went straight into second year maths units, writing exam papers over the summer ...
  14. [14]
    Akshay Venkatesh - Clay Mathematics Institute
    Akshay Venkatesh completed his undergraduate degree at the University of Western Australia, Perth, and received his PhD from Princeton University in 2002.Missing: studies | Show results with:studies
  15. [15]
    Akshay Venkatesh *02 Receives 2018 Fields Medal - Math (Princeton)
    Venkatesh, who completed his Ph.D. at Princeton in 2002 under the supervision of Peter Sarnak, was cited for his synthesis of analytic number theory ...Missing: thesis advisor
  16. [16]
    [PDF] Limiting Forms of the Trace Formula - Mathematics
    c Copyright by Akshay Venkatesh, 2002. All Rights Reserved. Page 3 ... X → ∞ by techniques of analytic number theory; we will then obtain a sum just.Missing: UWA | Show results with:UWA
  17. [17]
    Fields Medals - Clay Mathematics Institute
    Venkatesh completed his PhD in 2002 under the supervision of Peter Sarnak at Princeton University. He took up his fellowship in 2004 following a period as ...<|control11|><|separator|>
  18. [18]
    Courant's Venkatesh Wins Packard Foundation Fellowship - NYU
    Nov 16, 2007 · D. in mathematics from Princeton in 2002. Venkatesh is the recipient of numerous awards, including a Clay Math Research Fellowship, a Hackett ...
  19. [19]
    Mathematician Akshay Venkatesh Appointed to the Faculty of the ...
    May 30, 2018 · Peter Sarnak, Professor in the School, added, “Among Akshay's singular talents is to uncover the essence, as well as novel variations, of ...Missing: thesis | Show results with:thesis
  20. [20]
    11th ERDOS COLLOQUIUM --- Akshay Venkatesh - q-SERIES
    He was C. L. E. Moore Instructor at MIT (2002-04) after which he was a Clay Research Fellow. He was appointed Associate Professor at Courant Institute, NYU in ...
  21. [21]
    NYU's Venkatesh, 25, Wins Prize Given to Young Mathematicians ...
    Aug 22, 2007 · The Salem Prize was first awarded in 1968. Born in New Delhi and raised in Australia, Venkatesh is the only Australian to have won medals at ...Missing: childhood | Show results with:childhood
  22. [22]
    [PDF] Vita – Akshay Venkatesh - Institute for Advanced Study
    University of Western Australia: BSc (Hons) 1997 (Mathematics, physics). Awards/Recognition Fields Medal, 2018. Ostrowski prize, 2018. Infosys prize, 2017.Missing: undergraduate studies
  23. [23]
    [PDF] Sparse equidistribution problems, period bounds and subconvexity
    Sep 2, 2010 · In the present paper, we have focused mostly on the case of PGL2 and GL2 over number fields. All our results pertain to this setting, except for ...
  24. [24]
    Akshay Venkatesh - Scholars - Institute for Advanced Study
    Akshay Venkatesh ; Distinguished Visiting Professor. School of Mathematics ; Member. School of Mathematics ; Degrees · Ph.D. · 2002. University of Western Australia.Missing: father profession<|separator|>
  25. [25]
    PhD Alumni | Mathematics - Stanford University
    Jun 1, 2025 · Ravi Vakil Akshay Venkatesh (IAS), Dan Boneh (Stanford CS Department). CRM-ISM Postdoctoral Fellow at the Centre de recherches mathématiques.Missing: collaboration | Show results with:collaboration
  26. [26]
    Math 109 - Mathematics - Stanford University
    Akshay Venkatesh, MWF 9--9:50 in 380F. · Explicitly define a function F from A to B. · Explain why F is a homomorphism. · Explain why F is 1-1. · Explain why F is ...
  27. [27]
    Akshay Venkatesh - The Mathematics Genealogy Project
    According to our current on-line database, Akshay Venkatesh has 12 students and 12 descendants. We welcome any additional information. If you have additional ...
  28. [28]
    Faculty-00001 - School of Mathematics | Institute for Advanced Study
    Ogg Professor). “Aaron, AARON NABER, “Akshay, AKSHAY VENKATESH (Robert and Luisa Fernholz Professor). Avi Wigderson headshot · AVI WIGDERSON (Herbert H. Maass ...
  29. [29]
    Conferences & Workshops - School of Mathematics
    Collaborative Workshop in Algebraic Geometry. June 24, 2024 | 9:00am - June 28, 2024 | 12:00pm ... Akshay Venkatesh (IAS) Chenyang Xu (Princeton University). In ...
  30. [30]
    Salem Prize - School of Mathematics | Institute for Advanced Study
    Akshay Venkatesh (chair) Terence Tao. Scientific Committee Terence Tao (chair) Guy David Mikhail Sodin. Administrative Support Yara Otjen yotjen@ias.edu. Past ...
  31. [31]
    Fields Medal winner to speak at Phillips Lecture Series
    Sep 18, 2025 · Akshay Venkatesh, an Australian mathematician and Robert & Luisa Fernholz Professor in the School of Mathematics at the Institute for Advanced ...Missing: position | Show results with:position
  32. [32]
    MoMath: the National Museum of Mathematics - Facebook
    Oct 6, 2025 · Infinitesimally Similar: The art and science of conformal mapping Join Fields Medalist Akshay Venkatesh on Wednesday, October 8, for a
  33. [33]
    [PDF] The Work of Akshay Venkatesh Allyn Jackson The study of numbers ...
    The class number of a ring is an integer that measures how badly the ring fails at unique factorization. Class numbers crop up all across number theory.Missing: thesis UWA
  34. [34]
    The Fields Medal 2018: Akshay Venkatesh | plus.maths.org
    Aug 1, 2018 · L-functions are functions of complex numbers – those numbers a + i b , where and are real numbers, and is the square root of -1 ( i 2 = − 1 ).
  35. [35]
    The subconvexity problem for GL2 - Numdam
    We solve the subconvexity problem for the L-functions of GL 1 and GL 2 automorphic representations over a fixed number field, uniformly in all aspects.
  36. [36]
    Subconvexity bounds for triple $L$-functions and representation ...
    We prove a bound for the triple period which amounts to a subconvexity bound for the corresponding special value of the triple L-function.
  37. [37]
    Sparse equidistribution problems, period bounds, and subconvexity
    Jun 12, 2005 · Authors:Akshay Venkatesh. View a PDF of the paper titled Sparse equidistribution problems, period bounds, and subconvexity, by Akshay Venkatesh.
  38. [38]
    Distribution of periodic torus orbits on homogeneous spaces
    ... Distribution of periodic torus orbits on homogeneous spaces. Manfred Einsiedler, Elon Lindenstrauss, Philippe Michel, Akshay Venkatesh. Author Affiliations +.
  39. [39]
    [PDF] Distribution of periodic torus orbits and Duke's theorem for cubic fields
    Nov 20, 2009 · Michel, and A. Venkatesh, The distribution of periodic torus orbits on homogeneous spaces: Duke's theorem for quadratic fields, 2010, preprint.
  40. [40]
    Effective equidistribution for closed orbits of semisimple groups on ...
    Feb 17, 2009 · We prove effective equidistribution, with polynomial rate, for large closed orbits of semisimple groups on homogeneous spaces, under certain technical ...
  41. [41]
    Linnik's ergodic method and the distribution of integer points on ...
    Jan 6, 2010 · Linnik's ergodic method and the distribution of integer points on spheres. Authors:Jordan S. Ellenberg, Philippe Michel, Akshay Venkatesh.
  42. [42]
    Local-global principles for representations of quadratic forms - arXiv
    Apr 11, 2006 · Abstract: We prove the local-global principle holds for the problem of representations of quadratic forms by quadratic forms, in codimension ...
  43. [43]
    [PDF] The Burger-Sarnak method and operations on the unitary dual of GL ...
    AKSHAY VENKATESH. Abstract. We study the effect of restriction to Levi ... Similarly, the type of all representations occurring in L2(GL(n, F)\GL(n, E)).
  44. [44]
    DERIVED HECKE ALGEBRA AND COHOMOLOGY OF ...
    Dec 23, 2019 · We describe a graded extension of the usual Hecke algebra: it acts in a graded fashion on the cohomology of an arithmetic group.
  45. [45]
    [PDF] Cohomology of arithmetic groups and periods of automorphic forms
    In particular, a lot of emphasis is put on a single example case (§3.2), where 1 Page 2 2 AKSHAY VENKATESH the symmetric space is the nine-dimensional product ...
  46. [46]
    [0903.3591] The subconvexity problem for $\GL_{2}$ - arXiv
    Mar 20, 2009 · We solve the subconvexity problem for the L-functions of \GL_{1} and \GL_{2} automorphic representations over a fixed number field, uniformly in all aspects.
  47. [47]
    Fields Medals 2018 - International Mathematical Union
    Akshay Venkatesh​​ For his synthesis of analytic number theory, homogeneous dynamics, topology, and representation theory, which has resolved long-standing ...
  48. [48]
    Australian mathematician wins Fields Medal
    Aug 3, 2018 · Australian mathematician Akshay Venkatesh has become only the second Australian to win a Fields Medal, often described as the Nobel Prize for mathematics.Missing: Competition | Show results with:Competition
  49. [49]
    Mathematics People
    Akshay Venkatesh of the Courant Institute of Math- ematical Sciences, New York University, has been awarded the Salem Prize for 2007–2008 for his contributions ...
  50. [50]
    SASTRA Ramanujan Award 2024
    The 2008 SASTRA Ramanujan Prize will be awarded to Akshay Venkatesh, who is now Professor of Mathematics at Stanford University, USA. This annual prize, which ...
  51. [51]
    [PDF] SASTRA PRIZE 2008 - UF Math - University of Florida
    The 2008 SASTRA Ramanujan Prize will be awarded to Akshay Venkatesh, who is now Professor of Mathematics at Stanford University, USA.
  52. [52]
    Akshay Venkatesh – NAS - National Academy of Sciences
    I am currently a professor at the Institute for Advanced Study in Princeton, NJ. Research Interests. I work in number theory as well as several related areas ...Missing: position | Show results with:position
  53. [53]
    2025 Class of Fellows of the AMS - American Mathematical Society
    Akshay Venkatesh, Institute for Advanced Study. Nisheeth K. Vishnoi, Yale University. John Voight, University of Sydney; and Dartmouth. College. Chelsea Walton ...
  54. [54]
    Two new Corresponding Members admitted to the Academy
    Apr 2, 2019 · Professor Akshay Venkatesh and Professor Krzysztof Matyjaszewski, both based in the United States, have been admitted to the Australian ...