• Corpus ID: 249191523

Tensor products and the Milnor-Moore theorem in the locality setup

@inproceedings{Clavier2022TensorPA,
  title={Tensor products and the Milnor-Moore theorem in the locality setup},
  author={Pierre Clavier and Loic Foissy and Diego A. L'opez and Sylvie Paycha},
  year={2022}
}
The present exploratory paper deals with tensor products in the locality framework developed in previous work, a natural setting for an algebraic formulation of the locality principle in quantum field theory. Locality tensor products of locality vector spaces raise challenging questions, such as whether the locality tensor product of two locality vector spaces is a locality vector space. A related question is whether the quotient of locality vector spaces is a locality vector space, which we… 
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References

SHOWING 1-10 OF 30 REFERENCES

From Orthocomplementations to Locality

After some background on lattices, the locality framework introduced in earlier work by the authors is extended to cover posets and lattices. We then extend the correspondence between Euclidean

Locality and causality in perturbative algebraic quantum field theory

  • K. Rejzner
  • Philosophy
    Journal of Mathematical Physics
  • 2019
In this paper, we discuss how seemingly different notions of locality and causality in quantum field theory can be unified using a non-Abelian generalization of the Hammerstein property (originally...

On $n$-Sum Groups.

Hopf-algebraic structure of families of trees

Un théorème de Cartier–Milnor–Moore–Quillen pour les bigèbres dendriformes et les algèbres braces

Locality and renormalization: Universal properties and integrals on trees

The purpose of this paper is to build an algebraic framework suited to regularise branched structures emanating from rooted forests and which encodes the locality principle. This is achieved by means

Groups as the union of proper subgroups.

In this seminar, we are going to analyze the minimal number of proper subgroups that can cover the entire finite group. In particular, we will be interested in proving two important theorems. The

Renormalisation and locality: branched zeta values

Multivariate renormalisation techniques are implemented in order to build, study and then renormalise at the poles, branched zeta functions associated with trees. For this purpose, we first prove

On the Structure of Hopf Algebras

induced by the product M x M e M. The structure theorem of Hopf concerning such algebras has been generalized by Borel, Leray, and others. This paper gives a comprehensive treatment of Hopf algebras

Groups as Unions of Proper Subgroups

Some of the many fascinating recent results in this direction are surveyed and some new ones are presented, which suggest that G cannot be the union of two proper subgroups.