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Effect algebras are very natural logical structures as carriers of probabilities and states. They were introduced for modeling of sets of propositions, properties, questions, or events with fuzziness, uncertainty or unsharpness. Nevertheless, there are effect algebras without any state, and questions about the existence (for non-modular) are still unanswered. We show that every Archimedean atomic lattice effect algebra with at most five blocks (maximal MV-subalgebras) has at least one state, which...

The exocenter and type decomposition of a generalized pseudoeffect algebra

David J. Foulis, Silvia Pulmannová, Elena Vinceková (2013)

Discussiones Mathematicae - General Algebra and Applications

We extend the notion of the exocenter of a generalized effect algebra (GEA) to a generalized pseudoeffect algebra (GPEA) and show that elements of the exocenter are in one-to-one correspondence with direct decompositions of the GPEA; thus the exocenter is a generalization of the center of a pseudoeffect algebra (PEA). The exocenter forms a boolean algebra and the central elements of the GPEA correspond to elements of a sublattice of the exocenter which forms a generalized boolean algebra. We extend...

The fermion number processes as a functional central limit of quantum hamiltonian models

L. Accardi, Y. G. Lu (1993)

Annales de l'I.H.P. Physique théorique

The Feynman integral and Feynman's operational calculus: a heuristic and mathematical introduction

Michel L. Lapidus (1996)

Annales mathématiques Blaise Pascal

The Foldy-Wouthuysen transformation in the two-particle case

H. Sazdjian (1987)

Annales de l'I.H.P. Physique théorique

The form boundedness criterion for the relativistic Schrödinger operator

Vladimir Maz'ya, Igor Verbitsky (2004)

Annales de l’institut Fourier

We establish necessary and sufficient conditions on the real- or complex-valued potential $Q$ defined on $ℝ^{n}$ for the relativistic Schrödinger operator $\sqrt{- Δ} + Q$ to be bounded as an operator from the Sobolev space $W_{2}^{1 / 2} (ℝ^{n})$ to its dual $W_{2}^{- 1 / 2} (ℝ^{n})$ .

The form factor program: a review and new results - the nested $SU (N)$ off-shell Bethe ansatz.

Babujian, Hratchya M., Foerster, Angela, Karowski, Michael (2006)

SIGMA. Symmetry, Integrability and Geometry: Methods and Applications [electronic only]

The Fourier transform on quantum Euclidean space.

Coulembier, Kevin (2011)

SIGMA. Symmetry, Integrability and Geometry: Methods and Applications [electronic only]

The Frobenius theorem on $N$ -dimensional quantum hyperplane.

Ciupală, C. (2006)

Acta Mathematica Universitatis Comenianae. New Series

The Gap Phenomena of Yang-Mills Fields over the Complete Manifold.

Chun-li Shen (1982)

Mathematische Zeitschrift

The garden of quantum spheres

Ludwik Dąbrowski (2003)

Banach Center Publications

A list of known quantum spheres of dimension one, two and three is presented.

The generalized Lichnerowicz formula and analysis of Dirac operators.

J. Tolksdorf, Ackermann, T. (1996)

Journal für die reine und angewandte Mathematik

The geometric quantization of the moduli space of Riemann surfaces with even spin structure.

Abel G. Wolman (1996)

Journal für die reine und angewandte Mathematik

The geometry of Brownian surfaces.

Léandre, Rémi (2006)

Probability Surveys [electronic only]

The geometry of Calogero-Moser systems

Jacques Hurtubise, Thomas Nevins (2005)

Annales de l’institut Fourier

We give a geometric construction of the phase space of the elliptic Calogero-Moser system for arbitrary root systems, as a space of Weyl invariant pairs (bundles, Higgs fields) on the $r$ -th power of the elliptic curve, where $r$ is the rank of the root system. The Poisson structure and the Hamiltonians of the integrable system are given natural constructions. We also exhibit a curious duality between the spectral varieties for the system associated to a root system, and the Lagrangian varieties for...

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