Derived Representation Schemes and Noncommutative Geometry
Abstract
Some 15 years ago M. Kontsevich and A. Rosenberg [KR] proposed a heuristic principle according to which the family of schemes parametrizing the finite-dimensional represen- tations of a noncommutative algebra A should be thought of as a substitute or "approximation" for Spec(A). The idea is that every property or noncommutative geometric structure on A should induce a corresponding geometric property or structure on for all n. In recent years, many interesting structures in noncommutative geometry have originated from this idea. In practice, however, if an associative algebra A possesses a property of geometric nature (e.g., A is a NC complete intersection, Cohen-Macaulay, Calabi-Yau, etc.), it often happens that, for some n, the scheme fails to have the corresponding property in the usual algebro-geometric sense. The reason for this seems to be that the representation functor is not "exact" and should be replaced by its derived functor (in the sense of non-abelian homological algebra). The higher homology of , which we call representation homology, obstructs from having the desired property and thus measures the failure of the Kontsevich-Rosenberg "approximation." In this paper, which is mostly a survey, we prove several results confirming this intuition. We also give a number of examples and explicit computations illustrating the theory developed in [BKR] and [BR].
Cite
@article{arxiv.1304.5314,
title = {Derived Representation Schemes and Noncommutative Geometry},
author = {Yuri Berest and Giovanni Felder and Ajay Ramadoss},
journal= {arXiv preprint arXiv:1304.5314},
year = {2016}
}
Comments
39 pages. Comments welcome. arXiv admin note: substantial text overlap with arXiv:1112.1449