Groundbreaking research papers have profoundly shaped our understanding of hadronic interactions, structure, and dynamics. Below is a curated list of important theory papers in hadron physics, offering essential insights into the field:
- C. Chen et al.Nucleon-to-$\Delta$ Axial and Pseudoscalar Transition Form Factors. PRL 133, 131901 (2024).
- J. Hua et al. Pion and Kaon Distribution Amplitudes from Lattice QCD. PRL 129, 132001 (2022).
- Z. F. Cui et al. Fresh Extraction of the Proton Charge Radius from Electron Scattering. PRL 129, 132001 (2022).
- J. Segovia et al. Completing the picture of the Roper resonance. PRL 127, 092001 (2021).
- L. Chang et al. Pion electromagnetic form factor at spacelike momenta. PRL 111, 141802 (2013).
- I.C. Cloet et al. Revealing dressed quarks via the proton’s charge distribution. PRL 111, 101803 (2013).
- I.C. Cloet et al. Pion distribution amplitude from lattice QCD. PRL 111, 092001 (2013).
- L. Chang et al. Imaging dynamical chiral-symmetry breaking: Pion wave function on the light front. PRL 110, 132001 (2013).
- S.X. Qin et al. Phase diagram and critical end point for strongly interacting quarks. PRL 106, 172301 (2011).
- L. Chang et al. Dressed-quark anomalous magnetic moments. PRL 106, 072001 (2011).
- L. Chang and C.D. Roberts. Sketching the Bethe-Salpeter kernel. PRL 103, 081601 (2009).
- A. Bender et al. Continuum study of deconfinement at finite temperature. PRL 77, 3724 (1996).
- G.R. Farrar and D.R. Jackson. The Pion Form-Factor. PRL 43, 246 (1979).
- S.J. Brodsky and G.R. Farrar. Scaling Laws at Large Transverse Momentum. PRL 31, 1153 (1973).
- S. Weinberg. Pion scattering lengths. PRL 17, 616 (1966).
