Fractional helicity, Lorentz symmetry breaking, compactification and anyons
DOI10.1016/S0550-3213(01)00442-4zbMath1020.81014arXivhep-th/0101190OpenAlexW2034947870MaRDI QIDQ5948290
Sergey M. Klishevich, Mikhail S. Plyushchay, Michel Rausch de Traubenberg
Publication date: 4 November 2001
Published in: Nuclear Physics. B (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/hep-th/0101190
covariant relativistic wave-equation spinor setsmassless fieldR-deformed Heisenberg algebra representations
Symmetry breaking in quantum theory (81R40) Finite-dimensional groups and algebras motivated by physics and their representations (81R05) Covariant wave equations in quantum theory, relativistic quantum mechanics (81R20)
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Cites Work
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- Deformed Heisenberg algebra with reflection
- Dynamical compactification as a mechanism of spontaneous supersymmetry breaking
- Fractional supersymmetry and infinite dimensional Lie algebras
- (Anti)commuting spinors and supersymmetric dynamics of semions.
- Irreducible unitary representations of the Lorentz group
- R-Deformed Heisenberg Algebra, Anyons and D=2+1 Supersymmetry
- ANYONS AS SPINNING PARTICLES
- Differential-Difference Operators Associated to Reflection Groups
- Linear differential equations for a fractional spin field
- Majorana Representations of the Lorentz Group and Infinite-Component Fields
- Group Theoretical Discussion of Relativistic Wave Equations
- Do the Equations of Motion Determine the Quantum Mechanical Commutation Relations?
- A Note on the Quantum Rule of the Harmonic Oscillator
- A Generalized Method of Field Quantization
- Cubic root of Klein-Gordon equation.
- Supersymmetric Yang-Mills theory in eleven dimensions
- Pinned branes and new non Lorentz invariant theories.
- An algebraic bootstrap for dimensionally reduced quantum gravity
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