Raúl A. Briceño, Zohreh Davoudi
The spectrum of a system with multiple channels composed of two hadrons with nonzero total momentum is determined in a finite volume with periodic boundary conditions using effective field theory methods. The results presented are accurate up to exponentially suppressed corrections in the volume. The formalism allows one to determine the phase shifts and mixing parameters of $\pi\pi-KK$ isosinglet coupled channels directly from Lattice Quantum Chromodynamics. We show that the extension to more than two channels is straightforward and present the result for the three channels. From the energy quantization condition, the volume dependence of electroweak matrix elements of two-hadron processes is extracted, for both relativistic and non-relativistic systems. In the NR case, we pay close attention to processes that mix the $\singlet-\triplet$ two-nucleon states, e.g. proton-proton fusion ($pp\rightarrow d+e^++\nu_e$), and show how to determine the transition amplitude of such processes directly from lattice QCD.
View original:
http://arxiv.org/abs/1204.1110
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