S2: Project-related publications from the first funding period

Publications in international refereed journals and books

  1. What different variants of chiral EFT predict for the proton Compton differential cross section - and why
    V. Lensky, J. McGovern, D. Phillips, and V. Pascalutsa, Phys.Rev. C86 (2012) 048201.
  2. Limitations of the heavy-baryon expansion as revealed by a pion-mass dispersion relation
    J.M.M. Hall and V. Pascalutsa, Eur.Phys.J. C72 (2012) 2206 .
  3. Separation of proton polarizabilities with the beam asymmetry of Compton scattering
    Krupina and V. Pascalutsa, Phys.Rev.Lett 110 (2013) 262001.
  4. Improved description of the \(\mathbf{\pi N}\)-scattering phenomenology in covariant baryon chiral perturbation theory
    J.M. Alarcón, J. Martin Camalich, J.A. Oller, Annals Phys. 336 (2013) 413.
  5. Chiral perturbation theory of muonic hydrogen Lamb shift: polarizability contribution
    J.M. Alarcón, V. Lensky, and V. Pascalutsa, Eur.Phys.J. C74 (2014) 2852.
  6. The strangeness content of the nucleon from effective field theory and phenomenology
    J. M. Alarcon, L. S. Geng, J. Martin Camalich, J.A. Oller, Phys.Lett. B730 (2014) 342.
  7. Moments of nucleon structure functions at next-to-leading order in baryon chiral perturbation theory
    V. Lensky, J. M. Alarcón and V. Pascalutsa, Phys.Rev. C90 (2014) 055202.
  8. Measurements of the proton spin polarizabilities with double-polarized Compton scattering
    P. P. Martel et al., Phys.Rev.Lett. 114 (2015) 11250.
  9. Polarizability relations across real and virtual Compton scattering processes
    V. Pascalutsa and M. Vanderhaeghen, Phys.Rev. D91 (2015) 051503 [Rapid Communications].
  10. Breakdown of the expansion of finite-size corrections to the hydrogen Lamb shift in moments of charge distribution
    F. Hagelstein and V. Pascalutsa, Phys.Rev. A91 (2015) 040502 [Rapid Communications].