© MM

New perspectives on K- and L-theory

21-25 September 2020, online event

Hermitian K-theory is the study of unimodular forms through the eyes of K-theory. In work of B. Calmès, E. Dotto, Y. Harpaz, F. Hebestreit, M. Land, K. Moi, D. Nardin, T. Nikolaus and W. Steimle, it was recently shown that there is a fibre sequence relating ordinary algebraic K-theory, hermitian K-theory (aka Grothendieck-Witt theory) and L-theory in a very general context. The lectures will focus on these results. One lecture series focuses on Grothendieck-Witt theoretic aspects and one focuses on L-theoretic aspects.


We will have two lecture series:

Markus Land (Copenhagen): L-theory of rings via higher categories

We will introduce Witt groups and various flavours of L-groups and discuss some examples. We will then discuss a process called algebraic surgery. This process permits, under suitable assumptions, to simplify representatives in L-groups, and we will touch on two flavours (surgery from below and surgery from above). We will indicate how these can be used to show that various comparison maps between different L-theories are isomorphisms (in suitable ranges). Then we will go on and discuss three methods that allow for more calculations: Localisation sequences, a dévissage theorem, and an arithmetic fracture square. Using those, we will calculate the L-groups of Dedekind rings whose fraction field is a global field.

Talk 1: video on YouTube slides (download)
Talk 2: video on YouTube slides (download)
Talk 3: video on YouTube slides (download)
Talk 4: video on YouTube slides (download)
Exercises (download) for Markus Land's lectures. Solutions and discussions can be found in the forum.

Yonatan Harpaz (Paris 13): New perspectives in hermitian K-theory

In this lecture series we will describe an approach to hermitian K-theory which sheds some new light on classical Grothendieck-Witt groups of rings, especially in the domain where 2 is not assumed to be invertible. Our setup is higher categorical in nature, and is based on the concept of a Poincaré ∞-category, first suggested by Lurie. We will explain how classical examples of interest can be encoded in this setup, and how to define the principal invariants of interest, consisting of the Grothendieck-Witt spectrum and L-theory spectrum, within it. We will then describe our main abstract results, including additivity, localization and universality statements for these invariants and their relation to each other and to algebraic K-theory via the fundamental fibre sequence.

We will then specialize again to the case of rings and extract a variety of applications, including a generalization of Karoubi's fundamental theorem, a solution of the homotopy limit problem for number rings, a comparison range between quadratic and symmetric Grothendieck-Witt groups for rings of bounded dimension, a finite generation statement for Grothendieck-Witt groups of number rings and an essentially complete calculation of the quadratic and symmetric Grothendieck-Witt groups of the integers. Our approach makes systematic use of the fundamental fibre sequence for reducing questions about Grothendieck-Witt groups to questions about L-groups, which in turn can be very efficiently accessed via the machinery of algebraic surgery, as will be explained in the companion lecture series of Markus.

Talk 1: video on YouTube slides (download)
Talk 2: video on YouTube slides (download)
Talk 3: video on YouTube slides (download)


Markus' talks will be streamed via Zoom on
Monday 21 September 4pm - 5pm (GMT+2),
Tuesday 22 September 4pm - 5pm (GMT+2),
Thursday 24 September 4pm - 5pm
Friday 25 September 4pm - 5pm (GMT+2),
and made available via YouTube.
Markus will be available for questions following his talks.

Yonatan’s talks will directly be made available via YouTube.


Please join our online forum for questions and discussions of K- and L-theory around our two lecture series.


Videos of the lectures can be found as playlist on the YouTube channel of Mathematics Münster.


Arthur Bartels (Münster)

Thomas Nikolaus (Münster)


No registration required.


You are welcome to download the poster (pdf).


The Workshop is supported by the Cluster of Excellence Mathematics Münster and the CRC Geometry: Deformations and Rigidity.