Recently, large families of two-dimensional quantum field theories with factorizing S-matrices have been constructed by the operator-algebraic methods, by first showing the existence of observables localized in wedge-shaped regions. However, these constructions have been limited to the class of S-matrices whose components are analytic in rapidity in the physical strip. In this work, we construct candidates for observables in wedges for scalar factorizing S-matrices with poles in the physical strip and show that they weakly commute on a certain domain. We discuss some technical issues concerning further developments, especially the self-adjointness of the candidate operators here and strong commutativity between them.
CITATION STYLE
Cadamuro, D., & Tanimoto, Y. (2015). Wedge-Local Fields in Integrable Models with Bound States. Communications in Mathematical Physics, 340(2), 661–697. https://doi.org/10.1007/s00220-015-2448-z
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