# Maryna Sergiivna Viazovska

### Quick Info

Kiev, Ukranian SSR (now Kyiv, Ukraine)

**Maryna Viazovska**is a Ukrainian mathematician who is professor at the Chair of Number Theory at the Institute of Mathematics of the École Polytechnique Fédérale de Lausanne in Switzerland. She solved the sphere-packing problem in dimension 8 and, in collaboration with others, the sphere-packing problem in dimension 24.

### Biography

**Maryna Viazovska**was born in Kiev, a city also known as Kyiv. She excelled at mathematics at school in Kiev so, in 1998, she entered the Kiev Natural Science Lyceum no. 145. This Lyceum in the Pechersk district of Kiev was founded in 1962 as a specialised mathematics, physics, and computer science school. It is highly selective and only the most outstanding pupils are admitted. The programmes in mathematics and physics were developed for the Lyceum in cooperation with the faculty of the Kiev National University. At this school Viazovska was influenced, in particular, by Andrii Knyazyuk (1960-2013).

Knyazyuk had himself graduated from the Kiev Natural Science Lyceum no. 145 and was awarded a doctorate by the Institute of Mathematics of National Academy of Sciences of Ukraine in 1985 for his thesis

*Boundary values of solutions of evolution equations in Banach spaces*. He worked at the Institute of Mathematics of the Academy of Sciences Ukrainian SSR in Kiev during the 1980s publishing around 10 papers on operator-differential equations and related topics. He left his career at the Ukrainian Academy of Sciences to become a teacher at the Kiev Natural Science Lyceum no. 145. Viazovska said in the interview [3]:-

Unfortunately, he has died. He was a professional mathematician, but left science and went to work at the Lyceum. He knew a lot more than he had to teach in the programme, so learning from him was extremely interesting.In 2001 Viazovska graduated from the Kiev Natural Science Lyceum no. 145 and entered the Taras Shevchenko National University of Kiev to study mathematics [16]:-

The Faculty of Mechanics and Mathematics of the Kiev National University Taras Shevchenko is the best place to study mathematics. This is what my teacher convinced me when it was time to go to university. Then this option suited me perfectly: I wanted to study in Kiev and I was not interested in anything but mathematics.While studying at the Taras Shevchenko National University of Kiev, Viazovska competed in the Mathematical Olympiad Competition in 2002, 2003, 2004 and 2005 and won the top award in 2002 and 2005. She said [16]:-

I liked Mathematical Olympiads. I remember taking part - and loving mathematics even more.In 2005 she was awarded a Bachelor's Degree in mathematics from the University of Kiev. While at the Taras Shevchenko National University of Kiev, Viazovska began working with Andriy Bondarenko and they published the paper

*Bernstein type inequality in monotone rational approximation*.

After the award of her first degree from the Taras Shevchenko National University of Kiev, Viazovska went to Germany to study for a Master's Degree at the Kaiserslautern University of Technology. She said in the interview [16]:-

I had to choose: stay in Kiev and look for a job or continue my studies abroad. I went and got my master's degree in the German city of Kaiserslautern. On the one hand, it was difficult for me: what is it like to live alone without parents? But on the other hand, I was lucky: I entered a university that cared for foreign students. In addition, I was paid a scholarship. I think that in Ukraine, both in schools and in the initial courses of Mathematics at the University, they teach better than in Germany. But somewhere in the fourth year in Ukraine, most students start to get a job - I mean not only the Faculty of Mechanics and Mathematics of the Kiev National University, but other faculties of any other university. In Germany, students spend more time studying, they do not have to look for work, pushing their studies to the background. In Ukraine, unfortunately, the university is gradually becoming a hobby in the life of an undergraduate.In 2007 Viazovska graduated with a Master's Degree from Kaiserslautern and in May 2010, she defended her Candidate's thesis at the Institute of Mathematics of the National Academy of Sciences of Ukraine on the topic "Inequalities for polynomials and rational functions and quadrature formulas in the sphere". Here is her Abstract of her thesis:-

Monotone rational approximation and trigonometric polynomial approximation are investigated, quadrature formulas on the sphere are constructed. A direct analogue of the Bernstein inequality is established for monotonic rational functions. The significance of the exponential dependence of the constant in the right part on the degree of rational function is proved. An exact constant in this inequality is obtained for the case of odd monotone rational functions. An explicit formula for the normalizing factor of the generalized Jackson kernel is found and an asymptotically accurate estimate of its values is obtained. The question of the minimum number of points in a spherical design is considered. An explicit method of constructing spherical designs using quadrature formulas has been developed, and a method using a uniform partition of a sphere has been proposed. It is proved that these constructions can significantly improve the known asymptotic estimates from above of the minimum number of spherical design points in all dimensions of more than two.During the time she was working on her Candidate's thesis she published two joint papers with Andriy Bondarenko, namely

*New asymptotic estimates for spherical designs*(2008) and

*Spherical designs via Brouwer fixed point theorem*(2010) as well as the single authored paper

*Estimation of the norm of the derivative of a monotone rational function in the spaces*$L_{p}$ (2009).

After her Candidate's degree, she went to the Max Planck Institute for Mathematics at the Rheinische Friedrich-Wilhelms-Universität Bonn. There she worked towards her Dr. rer. Nat. (equivalent to a Ph.D.) advised by Don Zagier. Zagier, born 29 June 1951 in Heidelberg, Germany, studied at MIT, Oxford University, and habilitated at the University of Bonn in 1975. After working at the University of Maryland, USA, and the University of Utrecht, he became Director of the Max Planck Institute for Mathematics in 1995. He worked on analytic number theory and modular forms. Viazovska was awarded her Dr. rer. Nat. in 2013 for her thesis

*Modular Functions and Special Cycles*. In fact her collaborator Andriy Bondarenko had received the Seventh Vasil A Popov Prize awarded on 8 April 2013 during the Fourteenth International Conference on Approximation Theory held in San Antonio, Texas, USA. His joint work with Viazovska was part of the work which gained him the award:-

Andriy Bondarenko was recognized for his outstanding contributions to Approximation Theory. He along, with Radchenko and Viazovska, solved the spherical t-design conjecture by Korevaar and Meyers concerning optimal approximation of integrals over the sphere by arithmetic means of values of the integrand. This result beautifully illustrates the power of the fixed-point method to approximation problems. Andriy Bondarenko has also advanced powerful new ideas in other areas of Approximation Theory, in particular, in monotone rational approximation, one of Vasil A Popov's favourite research areas.After a time as a postdoctoral researcher at the Institut des Hautes Études Scientifiques in France, Viazovska moved to Berlin in 2014 where she was a postdoctoral researcher at the Berlin Mathematical School and the Humboldt University of Berlin. In the spring of 2016 she announced she had made an amazing mathematical breakthrough by solving a long standing packing problem. In [3] she gave the background to the problem:-

The question is: how many eight-dimensional balls can fit in an eight-dimensional space? That is, at what density can they be packed there? Of course, there are infinitely many of them there, but the weight depends on the density. There have been some assumptions about the configuration of this stacking for a long time, but the tasks of such a problem are difficult to solve. In dimension "one" it is a trivial question, because the ball in it is just a segment, and this segment can fit everything 100%. This is not a very difficult issue in the plane either, it was solved at the turn of the 19th and 20th centuries. A sphere on a plane - just a disk, for example, coins of the same size - how many can we put here? In the order of the honeycomb, more than 90% of the plane can be filled.In [16] she gave more details of how she came to work on this problem:-

In dimension three, this is a famous Kepler problem formulated as early as 1611. It was only solved at the end of the twentieth century by computers. There are countless three-dimensional variants of placement of balls, even on a computer it is impossible to check all, but the idea was how to reduce it to a certain finite calculation, though still a very long and complicated one. It is quite a dramatic story. One mathematician announced the solution, but then found many holes in it. In the early 1990s, another scientist from China made a similar statement, but he also found a lot of flaws, and only Tom Hales, after spending several years, recorded the correct answer in 1998. There has been a very meticulous attention to this work, it has been reviewed for a very long time, it has been peer-reviewed for five years, and it has been debated whether it should be considered as a mathematical solution because it relies heavily on computer calculations. But they decided that everything was correct. And recently, Hales also wrote down a formal solution that can be tested using a computer program, which, in fact, is designed to validate just such evidence. It turns out that there is a kind of shortcut in eight-dimensional space, so we can go the easier way. In 2003, there were developments that indicated that this could be proven. I managed to finish this argument logically. Then, working with colleagues, we solved the problem in dimension 24.

My discovery is not illumination or chance. I knew about such a task for a long time. The scientific paper, which proposed the method of optimization of this 8-dimensional lattice, was written in 2003. Four years ago (in 2012), Kiev mathematician Andriy Bondarenko inspired me to do this. He told me at this time that this task is for me, and I have the necessary knowledge to solve it. I hesitated a long time and two years ago (2014), when I moved to Berlin, I started working on it. After I wrote the function for dimension 8, it became clear that the function for dimension 24 would be similar. Henry Cohn, one of the two co-authors of the same work, written in 2003, suggested to me, my colleagues, Stephen Miller, Abinave Kumar, and in Kiev Daniel Radchenko, to work on a 24-dimensional case. With Daniel, we had earlier started working on the same task, but the approaches we applied did not work. So he switched to other problems, and I continued to "fight" over the 8-dimensional package. After a week of intensive computing, we checked the assumptions on the computer - and it was confirmed. Of course, there were some nuances, but in general we can say that the same method worked twice.Viazovska's solution to the 8-dimensional case was published in the paper

*The sphere packing problem in dimension 8*(2017). Her Abstract to the paper is short and precise:-

In this paper we prove that no packing of unit balls in Euclidean space $\mathbb{R}^{8}$ has density greater than that of the $E_{8}$ lattice packing.Rainer Schulze-Pillot writes in a review:-

The author proves in this article that the $E_{8}$ lattice gives the densest sphere packing in dimension 8. This long-standing problem was reduced by H L Cohn and N D Elkies to the problem of finding a function $f$ on $\mathbb{R}^{8}$ for which both $f$ and its Fourier transform satisfy certain conditions ... The author constructs such a function explicitly, using integral transforms of some carefully chosen quotients of modular forms.The 24 dimension case was also published in 2017 in the paper

*The sphere packing problem in dimension 24*written by Henry Cohn, Abhinav Kumar, Stephen D Miller, Danylo Radchenko and Maryna Viazovska. Martib Henk writes in a review:-

This is another breakthrough result in sphere packing. After the recent spectacular solution of the sphere packing problem in dimension 8 by M S Viazovska, the paper under review solves the problem in dimension 24. The authors show that the maximum sphere packing density in dimension 24 is achieved by the Leech lattice packing and, up to scaling and isometries, it is the only periodic packing of this density. The proof follows the eight-dimensional approach of Viazovska.Viazovska received major awards for her remarkable achievements, the first award being made even before the papers appeared in print [15]:-

The Salem Prize 2016 has been awarded to Maryna Viazovska of Berlin Mathematical School and Humboldt University of Berlin for her breakthrough work on densest sphere packings in dimensions 8 and 24 using methods of modular forms. The prize, in memory of Raphael Salem, is awarded yearly to young researchers for outstanding contributions to the field of analysis.She received more prizes in 2017, the year in which she was appointed to the Swiss Federal Institute of Technology, Lausanne, Switzerland. There was the European Prize in Combinatorics [4]:-

The European Prize of Combinatorics 2017 was awarded to ... Maryna Viazovska (EPFL) for her deep contributions to spherical designs and particularly for the solution of the sphere packing problem in dimensions 8 and 24. The prize ceremony took place at the TU Wien at the Opening of the Eurocomb 2017 conference on 28 August 2017. [She] gave a prize lecture on 30 August as part of the Eurocomb conference.Also in 2017 there was the Clay Research Award [2]:-

A Clay Research Award is made to Maryna Viazovska (Princeton University and École Polytechnique Fédérale de Lausanne) in recognition of her groundbreaking work on sphere-packing problems in eight and twenty-four dimensions. In particular, her innovative use of modular and quasimodular forms, which enabled her to prove that the $E_{8}$ lattice is an optimal solution in eight dimensions. The award will be presented at the 2017 Clay Research Conference and Workshops Sunday, 24 September 2017 to Friday, 29 September 2017.In December 2017 she received the 2017 Shanmugha Arts, Science, Technology & Research Academy (SASTRA) Ramanujan Prize [14]:-

Maryna Viazovska of Swiss Federal Institute of Technology, Lausanne, Switzerland, will receive 2017 SASTRA Ramanujan Prize for her contribution to number theory. ... The prize will be awarded during 21-22 December 2017 at the International Conference on Number Theory at SASTRA University in Kumbakonam (Ramanujan's hometown) where the prize has been given annually.In January 2018 she was promoted to full professor at the École Polytechnique Fédérale de Lausanne and later that year she received the 2018 New Horizons in Mathematics Prize [10]:-

For remarkable application of the theory of modular forms to the sphere packing problem in special dimensions.Here is her reply to receiving this award [10]:-

Science is a collaborative effort, and quick progress is possible when people openly share their knowledge and ideas. I would like to thank my teachers, colleagues, and co-authors, as without them none of my research would be possible. I am grateful to my teachers Andriy Knyaziuk, Sergiy Ovsienko, Gerhard Pfister, Igor Shevchuk, and Don Zagier for their guidance, enthusiasm, and great patience. I thank Andriy Bondarenko, Henry Cohn, Abhinav Kumar, Steven Miller, Danylo Radchenko, and Daniil Yevtushynsky for the projects we have done together and for everything they have taught me. Also, I thank my family for their love and support.Viazovska was an invited speaker in the Combinatorics and Number Theory Section of the 2018 International Congress of Mathematicians in Rio de Janeiro. She gave a talk about her research on sharp sphere packings.

Late in 2018 it was announced that she would receive the 2019 Ruth Lyttle Satter Prize in Mathematics [11]:-

The 2019 Ruth Lyttle Satter Prize in Mathematics will be awarded to Maryna Viazovska, École Polytechnique Fédérale de Lausanne (Switzerland), for her groundbreaking work in discrete geometry and her spectacular solution to the sphere-packing problem in dimension eight. ... Maryna Viazovska's work has been described as "simply magical," "very beautiful" and "extremely unexpected." Her solution to the sphere-packing problem in dimension eight, while conceptually simple, has a deep structure based on certain functions that she explicitly constructs in terms of modular forms. It establishes a new, unanticipated connection between modular forms and discrete geometry.Viazovska has continued to make further breakthroughs. Erica Klarreich

writes in May 2019 [7]:-

Three years ago, Maryna Viazovska, of the Swiss Federal Institute of Technology in Lausanne, dazzled mathematicians by identifying the densest way to pack equal-sized spheres in eight- and 24-dimensional space (the second of these in collaboration with four co-authors). Now, she and her co-authors have proved something even more remarkable: The configurations that solve the sphere-packing problem in those two dimensions also solve an infinite number of other problems about the best arrangement for points that are trying to avoid each other. The points could be an infinite collection of electrons, for example, repelling each other and trying to settle into the lowest-energy configuration. Or the points could represent the centres of long, twisty polymers in a solution, trying to position themselves so they won't bump into their neighbours. There's a host of different such problems, and it's not obvious why they should all have the same solution. In most dimensions, mathematicians don't believe this is remotely likely to be true. But dimensions eight and 24 each contain a special, highly symmetric point configuration that, we now know, simultaneously solves all these different problems. In the language of mathematics, these two configurations are "universally optimal."Let us end this biography with Viazovska's aims for the future [5]:-

Viazovska's work has potential reverberations in several other fields, including energy minimization, free interpolation formulas, and signal processing. But, she is not sure where her research might apply. "I'm a theoretical mathematician, so I don't know that much about practical problems," she joked. The Ukrainian mathematician hopes for an even bigger breakthrough and dreams of winning the 2022 Fields Medal: "I'm 33, so I have one more chance," she said. Solving a mathematical problem that has been around for centuries is no small feat, but Viazovska has bigger ambitions. "The most incredible results come from ideas about problems that no one had before. Questions that no one even thought to ask," she said. "I hope to do something like that. I can't tell you much about it, because I haven't thought of it yet."

### References (show)

- M Bláuab, PaperHive Conversations: Maryna Viazovska,
*PaperHive*(15 May 2016). https://magazine.paperhive.org/paperhive-conversations-maryna-viazovska/ - Clay Research Award to Maryna Viazovska,
*Clay Mathematics*(2017). http://www.claymath.org/maryna-viazovska - D Desyateryk, The simplest science. Interview with a Ukrainian woman who has solved the mathematical "task of the ages",
*Live Journal*(12 march 2017). https://ua.livejournal.com/1865550.html - European Prize of Combinatorics 2017, Institute of Discrete Mathematics and Geometry, Technical University of Vienna (1 September 2017). https://www.dmg.tuwien.ac.at/eurocomb2017/
- How Maryna Viazovska cracked the sphere packing code,
*International Congress of Mathematicians 2018*(2 August 2018). http://www.icm2018.org/wp/2018/08/02/how-maryna-viazovska-cracked-the-sphere-packing-code/ - Hadamard Lectures 2019 of Maryna Viazovska: "Automorphic Forms and Optimization in Euclidean Space",
*Institut des Hautes Etudes Scientifiques*(1 April 2019). https://www.ihes.fr/en/hadamard-lectures-2019-of-maryna-viazovska-automorphic-forms-and-optimization-in-euclidean-space/ - E Klarreich, Out of a Magic Math Function, One Solution to Rule Them All,
*Quanta Magazine*(13 May 2019). - E Klarreich, Sphere Packing Solved in Higher Dimensions,
*Quanta Magazine*(30 March 2016). - Know Ours: Ukrainian Marina Vyazovska has made a breakthrough in mathematics,
*Rubric*(18 May 2019). https://rubryka.com/2019/05/18/maryna-v-yazovska-proryv/ - Maryna Viazovska 2018 New Horizons in Mathematics Prize,
*Mathematics Breakthrough Prize*(2018). https://breakthroughprize.org/Laureates/3/L3820 - Maryna Viazovska to receive 2019 Satter Prize,
*American Mathematical Society*(17 December 2018). http://www.ams.org/news?news_id=4761 - Maryna Viazovska invited speaker at the 2018 ICM in Rio de Janeiro,
*Ecole polytechnique fédérale de Lausanne*. https://actu.epfl.ch/news/maryna-viazovska-invited-speaker-at-the-2018-icm-3/ - Maryna Viazovska,
*alchetron.com*(10 February 2018). https://alchetron.com/Maryna-Viazovska - T Nadu, Maryna Viazovska to receive 2017 SASTRA Ramanujan Prize,
*The Hindu*(26 September 2017). - Prix Salem 2016, French Mathematical Society (5 December 2016). https://smf.emath.fr/actualites-smf/prix-salem-2016
- O O Starov, Ukrainian Marina Vyazovska made a breakthrough in mathematics,
*Mathematics in schools of Ukraine. Extracurricular Wor*k**5**(65) (May 2016). http://journal.osnova.com.ua/article/57283 - A Testa, Maryna Viazovska promoted to Full Professor,
*Ecole polytechnique fédérale de Lausanne*(December 2017). https://actu.epfl.ch/news/maryna-viazovska-promoted-to-full-professor/ - The Ukrainian Marina Vyazovskaya has solved the problem that mathematicians all over the world have been fighting for centuries,
*uavarta.org*(7 February 2017). https://uavarta.org/2017/02/07/znay-nashih-ukrayinka-marina-vyazovska-rozv-yazala-zadachu-nad-yakoyu-matematiki-usogo-svitu-bilisya-kilka-stolit/ - Ukrainian Marina Vyazovskaya about her mathematical discovery with tennis balls,
*Ukrainian Pravda*(6 April 2016). https://life.pravda.com.ua/society/2016/04/6/210625/ - Ukrainian Marina Vyazovska Won the Most Prestigious Mathematics Prize,
*Young Ukraine*(26 January 2017). - Ukrainian scientist Marina Vyazovska made a breakthrough in mathematics,
*zaxid.net/news/*. https://zaxid.net/ukrayinska_vchena_marina_vyazovska_zdiysnila_proriv_u_matematitsi_n1481467

### Additional Resources (show)

Other websites about Maryna Viazovska:

### Honours (show)

Honours awarded to Maryna Viazovska

### Cross-references (show)

Written by J J O'Connor and E F Robertson

Last Update November 2019

Last Update November 2019