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Paper detail

Grassmannian stochastic analysis and the stochastic quantization of Euclidean Fermions

We introduce a stochastic analysis of Grassmann random variables suitable for the stochastic quantization of Euclidean fermionic quantum field theories. Analysis on Grassmann algebras is developed here from the point of view of quantum probability: a Grassmann random variable is an homomorphism of an abstract Grassmann algebra into a quantum probability space, i.e. a $C^{\ast}$-algebra endowed with a suitable state. We define the notion of Gaussian processes, Brownian motion and stochastic (partial) differential equations taking values in Grassmann algebras. We use them to study the long time behavior of finite and infinite dimensional Langevin Grassmann stochastic differential equations driven by Gaussian space-time white noise and to describe their invariant measures. As an application we give a proof of the stochastic quantization and of the removal of the space cut-off for the Euclidean Yukawa model.

preprint2022arXivOpen access
Sergio AlbeverioLuigi BorasiFrancesco C. De VecchiMassimiliano Gubinelli
math-phmath.PRmath.MP
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Sergio AlbeverioLuigi BorasiFrancesco C. De VecchiMassimiliano Gubinelli

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