Abstract
Solutions to the Thirring model are constructed in the framework of algebraic quantum field theory. It is shown that for all positive temperatures there are fermionic solutions only if the coupling constant is \( \lambda = \sqrt {2\left( {2n + 1} \right)\pi ,} n \in {\rm N} \), otherwise solutions are anyons. Different anyons (which are uncountably many) live in orthogonal spaces, so the whole Hilbert space becomes non-separable and in each of its sectors a different Heisenberg’s “Ungleichung” holds. This feature certainly cannot be seen by any power expansion in ⋋. Moreover, if the statistic parameter is tied to the coupling constant it is clear that such an expansion is doomed to failure and will never reveal the true structure of the theory.On the basis of the model in question, it is not possible to decide whether fermions or bosons are more fundamental since dressed fermions can be constructed either from bare fermions or directly from the current algebra.KeywordsHilbert SpaceField TheoryElementary ParticleQuantum Field TheoryString TheoryThese keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
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