**Oliver Janzer is a mathematician who specialises in graphs - that is, collections of nodes that may or may not be connected, such as Facebook users. As part of his ETH Fellowship, the young researcher has been busy solving problems that had stumped mathematicians for decades.**

Imagine a group of people. Some of them know each other; others have never met. If you connect all the pairs of individuals who know each other, while making no connections between strangers, you end up with a network of nodes and interconnections. Mathematicians refer to such a network as a graph. Social networks like Facebook can be considered as a graph. The theory of these networks is a subfield of combinatorics, a field of mathematics in which Oliver Janzer specialises. The 27-year-old scientist has been working as an ETH Fellow in the group of mathematics professor Benny Sudakov since the autumn of 2020.

-We tackle specific kinds of problems in graph theory,- Janzer explains. This might mean calculating the maximum number of people who can be connected to each other when certain patterns are forbidden - for example, if nobody in the group is permitted to know everyone else. -The questions we ask in our field tend to be fairly simple compared to the ones you get in other fields of mathematics,- Janzer says, -but somehow the solutions are not always very simple!- This is a huge understatement by the young researcher, who has already won several awards. One maths problem first formulated in 1975 had resisted every attempt to find a solution - but Janzer and Sudakov recently came up with new ideas that gave them the breakthrough they needed to solve it.

Translated from mathematical jargon into everyday English, the problem basically concerned the following question: How many pairs of individuals can know each other in a group of n people if there are no subgroups in which each person knows exactly k other people, where n’is an integer and k is greater than or equal to the number three. -When explaining this problem, I had to cheat a tiny bit to make it easier to grasp,- Janzer confesses. Nonetheless, the solution he and Sudakov came up with is exact - and it generated tremendous interest in the scientific community when it was published as a preprint in late April 2022.

**From Budapest to Cambridge**

Janzer grew up in Budapest, and he acknowledges how fortunate he was to attend a school in Hungary where mathematics teaching has a high priority. -My classmates had similar interests to mine. Maths was our favourite subject and we had some amazing teachers,- he says. It wasn-t long before he was making waves in a national mathematics competition and, once he hit his teens, he went on to win a bronze and two silver medals at the International Mathematical Olympiad. This paved the way for him to study mathematics at Cambridge University in the UK. -That was when things really changed,- Janzer says: -Maths at university was very different to what I was used to at school and in the competitions.-

Janzer continued to take great pleasure in the subject, even when the time came to tackle his doctoral project in Cambridge: -That was another big shift, because suddenly it wasn’t just about learning things, but about doing my own research!- Before long, he was producing publishable results that were attracting the interest of experts, including ETH Professor Sudakov. -He sent me an e-mail asking what my plans were after I finished my doctorate,- Janzer says. With Sudakov on board as his mentor, he decided to apply for an Postdoctoral Fellowship , a programme that aims to support up-and-coming researchers who achieve outstanding results early on in their career. -I was very happy that it all worked out,- Janzer says, because the success rate for applicants is only about 25 percent.

**Cash prize for disproving a conjecture**

The Hungarian scientist Paul Erdos, one of the most important mathematicians of the 20th century, probably has played a key role in Janzer’s career so far. Erdos posed numerous questions and conjectures in combinatorics, one of which Janzer was able to disprove last year. -That’s another piece of work I’m really proud of!- he says. Erdos had even set up a prize fund for anyone who solved the problem he formulated in 1981, with 250 dollars awarded for proof of his conjecture and 500 dollars for its refutation.

The discoveries in Janzer’s specialist area are mainly applicable in the field of mathematics itself; real-world applications tend to be few and far between, though there are exceptions. -Imagine you-re drawing up the match schedule for a football league, for example,- Janzer says: -If the league has 20 teams, it is unlikely that just by hand you can design a suitable schedule. Fortunately, our work provides some useful techniques to get the job done.- Many of the applications that do emerge, he says, aren-t for specific results, but for the underlying ideas. He cites the example of randomised techniques, which were developed to solve a purely combinatorial problem; these led to randomised algorithms, which are ubiquitous in modern computer science. The results of the latest work by Janzer and Sudakov can also be applied in this field, specifically in regard to machine learning.

-On the whole, though, it-s rare for our studies to be motivated by applications,- Janzer says. The value of a piece of work is generally determined by how well it advances the research itself, how old the problem is, and how many other scientists have already attempted to tackle it. -I sometimes think it would be nice to see my research make an impact in the real world, but I am well compensated by other aspects!- Janzer says, emphasising just how beautiful his discipline is. He particularly enjoys the idea that a conclusive proof in pure mathematics will still be valid 100 or 1,000 years from now. -It’s nice to think of your own name always being associated with that theorem.-

All Janzer needs for his work is a pen and paper, a computer is only involved to read and write scientific articles. On average, some 15 new publications a day appear in his subject area, and he often starts browsing through them over breakfast. Once he gets to his office on the top floor of the ETH Main Building, he continues his perusal of the literature and sets to work solving mathematical problems. -In many cases, the only way to make progress is to adopt a new perspective,- he says. -And sometimes it helps to ask a slightly different question, whether that’s an easier, more difficult or simply more general one.- The seven members of the research group don’t limit their discussions to mathematics, but also talk about what’s happening in the world outside. -I’m interested in politics and keep up with the latest news,- Janzer says: -Hungary shares a border with Ukraine, and this war is really very sad.-

**Plenty of sport - plus the odd computer game**

Janzer does plenty of sport to balance out the mental demands of his work. -I enjoy running; it helps me relax, and it is obviously very healthy,- he says. -And I like watching movies and chatting with friends.- He has also become more comfortable talking about his interest in computer games after seeing in a newspaper article that Terence Tao - one of the best-known mathematicians of our day - spent lots of time playing the computer game *Civilization* when he was at university. -I was pleased to see that I’m not the only one! You can still be an outstanding mathematician playing this game,- he says.

Once his ETH Fellowship comes to an end in August, Janzer will be returning to Cambridge to take up another research position, this time for four years. After that, he says he-s open to anything. His younger brother is also studying mathematics at Cambridge and working on a doctoral project in the field of combinatorics, and his sister moved from Cambridge to Oxford to do a Master’s degree in computer science. -For some reason, all three of us chose to pursue mathematics, even though our parents had no connection to the world of mathematics at all!- Janzer says. -That is pretty surprising.-

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