### Abstract

Lingua originale | English |
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Numero di pagine | 1 |

Stato di pubblicazione | Published - 2015 |

### Cita questo

**MR3299506 Reviewed
Rădulescu, Florin(I-ROME2)
On unbounded, non-trivial Hochschild cohomology in finite von Neumann algebras and higher order Berezin's quantization. (English summary)
Rev. Roumaine Math. Pures Appl. 59 (2014), no. 2, 265–292.** / Tschinke, Francesco.

Risultato della ricerca: Other contribution

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TY - GEN

T1 - MR3299506 Reviewed Rădulescu, Florin(I-ROME2) On unbounded, non-trivial Hochschild cohomology in finite von Neumann algebras and higher order Berezin's quantization. (English summary) Rev. Roumaine Math. Pures Appl. 59 (2014), no. 2, 265–292.

AU - Tschinke, Francesco

PY - 2015

Y1 - 2015

N2 - If (At)t>1 is a family of finite von Neumann algebras with a Chapman-Kolmogorov set of linear maps (symbol system) (Φs,t), and if αt:A→A are isomorphisms in a finite family of von Neumann algebras, the corresponding Hochschild cocycles are related to an obstruction to the deformation of the set of linear maps (Φs,t) in the corresponding Chapman-Kolmogorov system (Φs,t)˜ of completely positive maps. In this set-up, the author introduces an invariant (c,Z) for a finite von Neumann algebra M, consisting of a 2-Hochschild cohomology cocycle c and a coboundary unbounded operator Z for c. With some assumptions on c and Z=α+X+iY (α>0, Y is antisymmetric), the existence of an unbounded derivation δ is considered, such that the "perturbed'' operator Z+δ has imaginary part of cocycle c with antisymmetric coboundary operator defined on identity operator 1. In this sense, it turns out that the imaginary part of Z is a "cohomological obstruction'', in the sense that Z+δ loses some properties of Z for a large class of δ. The results are considered in Γ-equivariant Berezin quantum deformation of the upper half-plane with Γ=PSL2(Z), and in the case of von Neumann algebra L(F∞) with free group F∞.

AB - If (At)t>1 is a family of finite von Neumann algebras with a Chapman-Kolmogorov set of linear maps (symbol system) (Φs,t), and if αt:A→A are isomorphisms in a finite family of von Neumann algebras, the corresponding Hochschild cocycles are related to an obstruction to the deformation of the set of linear maps (Φs,t) in the corresponding Chapman-Kolmogorov system (Φs,t)˜ of completely positive maps. In this set-up, the author introduces an invariant (c,Z) for a finite von Neumann algebra M, consisting of a 2-Hochschild cohomology cocycle c and a coboundary unbounded operator Z for c. With some assumptions on c and Z=α+X+iY (α>0, Y is antisymmetric), the existence of an unbounded derivation δ is considered, such that the "perturbed'' operator Z+δ has imaginary part of cocycle c with antisymmetric coboundary operator defined on identity operator 1. In this sense, it turns out that the imaginary part of Z is a "cohomological obstruction'', in the sense that Z+δ loses some properties of Z for a large class of δ. The results are considered in Γ-equivariant Berezin quantum deformation of the upper half-plane with Γ=PSL2(Z), and in the case of von Neumann algebra L(F∞) with free group F∞.

UR - http://hdl.handle.net/10447/331553

UR - https://mathscinet.ams.org/mathscinet/search/publdoc.html?arg3=&co4=AND&co5=AND&co6=AND&co7=AND&dr=all&pg4=RVCN&pg5=TI&pg6=RVCN&pg7=ALLF&pg8=ET&review_format=html&s4=tschinke&s5=&s6=&s7=&s8=All&sort=Newest&vfpref=html&yearRangeFirst=&yearRangeSecond=&yrop=eq&r=10&mx-pid=3299506

M3 - Other contribution

ER -