Błażej Ruba scite author profile

Błażej Ruba

4Publications

89Citation Statements Received

257Citation Statements Given

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Jagiellonian University, Institute of Physics

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Bosonization based on Clifford algebras and its gauge theoretic interpretation

Bochniak

Ruba

2020

J. High Energ. Phys.

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We study the properties of a bosonization procedure based on Clifford algebra valued degrees of freedom, valid for spaces of any dimension. We present its interpretation in terms of fermions in presence of ℤ2 gauge fields satisfying a modified Gauss’ law, resembling Chern-Simons-like theories. Our bosonization prescription involves constraints, which are interpreted as a flatness condition for the gauge field. Solution of the constraints is presented for toroidal geometries of dimension two. Duality between our model and (d − 1)- form ℤ2 gauge theory is derived, which elucidates the relation between the approach taken here with another bosonization map proposed recently.

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Constraints of kinematic bosonization in two and higher dimensions

et al. 2020

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Super Quantum Airy Structures

Bouchard

Ciosmak

Hadasz

et al. 2020

Commun. Math. Phys.

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We introduce super quantum Airy structures, which provide a supersymmetric generalization of quantum Airy structures. We prove that to a given super quantum Airy structure one can assign a unique set of free energies, which satisfy a supersymmetric generalization of the topological recursion. We reveal and discuss various properties of these supersymmetric structures, in particular their gauge transformations, classical limit, peculiar role of fermionic variables, and graphical representation of recursion relations. Furthermore, we present various examples of super quantum Airy structures, both finite-dimensional—which include well known superalgebras and super Frobenius algebras, and whose classification scheme we also discuss—as well as infinite-dimensional, that arise in the realm of vertex operator super algebras.

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Dynamical generalization of Yetter’s model based on a crossed module of discrete groups

Bochniak

Hadasz

Ruba

2021

J. High Energ. Phys.

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We construct a lattice model based on a crossed module of possibly non-abelian finite groups. It generalizes known topological quantum field theories, but in contrast to these models admits local physical excitations. Its degrees of freedom are defined on links and plaquettes, while gauge transformations are based on vertices and links of the underlying lattice. We specify the Hilbert space, define basic observables (including the Hamiltonian) and initiate a discussion on the model’s phase diagram. The constructed model reduces in appropriate limits to topological theories with symmetries described by groups and crossed modules, lattice Yang-Mills theory and 2-form electrodynamics. We conclude by reviewing classifying spaces of crossed modules, with an emphasis on the direct relation between their geometry and properties of gauge theories under consideration.

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Błażej Ruba

Bosonization based on Clifford algebras and its gauge theoretic interpretation

Constraints of kinematic bosonization in two and higher dimensions

Super Quantum Airy Structures

Dynamical generalization of Yetter’s model based on a crossed module of discrete groups

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