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Creators/Authors contains: "Dawid, Sebastian M"

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  1. ; ; ; ; ; ; ; (, Physical Review D)
    We study systems of two and three mesons composed of pions and kaons at maximal isospin using four CLS ensembles with a 0.063 fm , including one with approximately physical quark masses. Using the stochastic Laplacian-Heaviside method, we determine the energy spectrum of these systems including many levels in different momentum frames and irreducible representations. Using the relativistic two- and three-body finite-volume formalism, we constrain the two- and three-meson K matrices, including not only the leading s wave, but also p and d waves. By solving the three-body integral equations, we determine, for the first time, the physical-point scattering amplitudes for 3 π + , 3 K + , π + π + K + , and K + K + π + systems. These are determined for total angular momentum J P = 0 , 1 + , and 2 . We also obtain accurate results for 2 π + , π + K + , and 2 K + phase shifts. We compare our results to chiral perturbation theory and to phenomenological fits. 
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    Free, publicly-accessible full text available July 1, 2026
  2. ; ; ; ; ; ; ; (, Physical Review Letters)
    We use lattice QCD calculations of the finite-volume spectra of systems of two and three mesons to determine, for the first time, three-particle scattering amplitudes with physical quark masses. Our results are for combinations of π+ and K+, at a lattice spacing a=0.063 fm, and in the isospin-symmetric limit. We also obtain accurate results for maximal-isospin two-meson amplitudes, with those for π + K + and 2 K + being the first determinations at the physical point. Dense lattice spectra are obtained using the stochastic Laplacian-Heaviside method, and the analysis leading to scattering amplitudes is done using the relativistic finite-volume formalism. Results are compared to chiral perturbation theory and to phenomenological fits to experimental data, finding good agreement. 
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    Free, publicly-accessible full text available July 1, 2026
  3. ; ; ; ; ; ; ; ; ; ; et al (, Progress in Particle and Nuclear Physics)
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