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1. Interactions of two and three mesons including higher partial waves from lattice QCD

   https://doi.org/10.1007/JHEP10(2021)023  

   Blanton, Tyler D.; Hanlon, Andrew D.; Hörz, Ben; Morningstar, Colin; Romero-López, Fernando; Sharpe, Stephen R. (October 2021, Journal of High Energy Physics)

   A bstract We study two- and three-meson systems composed either of pions or kaons at maximal isospin using Monte Carlo simulations of lattice QCD. Utilizing the stochastic LapH method, we are able to determine hundreds of two- and three-particle energy levels, in nine different momentum frames, with high precision. We fit these levels using the relativistic finite-volume formalism based on a generic effective field theory in order to determine the parameters of the two- and three-particle K-matrices. We find that the statistical precision of our spectra is sufficient to probe not only the dominant s -wave interactions, but also those in d waves. In particular, we determine for the first time a term in the three-particle K-matrix that contains two-particle d waves. We use three N f = 2 + 1 CLS ensembles with pion masses of 200, 280, and 340 MeV. This allows us to study the chiral dependence of the scattering observables, and compare to the expectations of chiral perturbation theory. 

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2. Particle-dimer approach for the Roper resonance in a finite volume

   https://doi.org/10.1007/JHEP04(2023)100  

   Severt, Daniel; Mai, Maxim; Meißner, Ulf-G. (April 2023, Journal of High Energy Physics)

   A bstract We propose a new finite-volume approach which implements two- and three-body dynamics in a transparent way based on an Effective Field Theory Lagrangian. The formalism utilizes a particle-dimer picture and formulates the quantization conditions based on the self-energy of the decaying particle. The formalism is studied for the case of the Roper resonance, using input from lattice QCD and phenomenology. Finally, finite-volume energy eigenvalues are predicted and compared to existing results of lattice QCD calculations. This crucially provides initial guidance on the necessary level of precision for the finite-volume spectrum. 

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3. Lattice QCD studies of the $$\Delta$$ baryon resonance and the $$K_0^\ast(700)$$ and $$a_0(980)$$ meson resonances: the role of exotic operators in determining the finite-volume spectrum

   https://doi.org/10.22323/1.453.0074  

   Skinner, Sarah; Bulava, John; Darvish, Danny; Hanlon, Andrew D.; Hoerz, Ben; Morningstar, Colin; Nicholson, Amy; Romero-Lopez, Fernando; Vranas, Pavlos; Walker-Loud, André (December 2023, Pos proceedings of science)

   This work presents technical details of determining the finite-volume energy spectra for the scattering amplitude of the coupled-channel πΣ−K¯N from lattice QCD data. The importance of reliably extracting such spectra lies in the crucial dependence of the hadronic scattering amplitudes analysis on the energy spectrum when using L\"{u}scher's formalism. Results of the methods used are presented and the final finite-volume spectra are shown. The analysis of the scattering amplitude based on these results, exhibits a two-pole structure for the Λ(1405), a virtual bound state below the πΣ threshold and a resonance pole right below the K¯N threshold. 

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4. The $$\Lambda(1405)$$ from Lattice QCD: Determining the Finite-volume Spectra

   https://doi.org/10.22323/1.453.0131  

   Cid-Mora, Barbara; Bulava, John; Hanlon, Andrew D.; Hörz, Ben; Mohler, Daniel; Morningstar, Colin; Moscoso, Joseph; Nicholson, Amy; Romero-Lopez, Fernando; Skinner, Sarah; et al (May 2024, Pos proceedings of science)

   This work presents technical details of determining the finite-volume energy spectra for the scattering amplitude of the coupled-channel πΣ−K¯N from lattice QCD data. The importance of reliably extracting such spectra lies in the crucial dependence of the hadronic scattering amplitudes analysis on the energy spectrum when using L\"{u}scher's formalism. Results of the methods used are presented and the final finite-volume spectra are shown. The analysis of the scattering amplitude based on these results, exhibits a two-pole structure for the Λ(1405), a virtual bound state below the πΣ threshold and a resonance pole right below the K¯N threshold. 

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5. Toward a resolution of the NN controversy

   https://doi.org/10.22323/1.396.0098  

   A. Nicholson; E. Berkowitz; J. Bulava; C. Cheng Chang; M. Clark; A. Hanlon; B. Hoerz; D. Howarth; C. Koerber; W.T. Lee; et al (January 2021, 38th International Symposium on Lattice Field Theory, LATTICE2021 26th-30th July, 2021)

   Lattice QCD calculations of two-nucleon interactions have been underway for about a decade, but still haven’t reached the pion mass regime necessary for matching onto effective field theories and extrapolating to the physical point. Furthermore, results from different methods, including the use of the Lüscher formalism with different types of operators, as well as the HALQCD potential method, do not agree even qualitatively at very heavy pion mass. We investigate the role that different operators employed in the literature may play on the extraction of spectra for use within the Lüscher method. We first explore expectations from Effective Field Theory solved within a finite volume, for which the exact spectrum may be computed given different physical scenarios. We then present preliminary lattice QCD results for two-nucleon spectra calculated using different operators on a common lattice ensemble. 

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