S2: Project-related publications from the first funding period
Publications in international refereed journals and books
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. C 86, 048201 (2012).
Limitations of the heavy-baryon expansion as revealed by apion-mass dispersion relation
J. M. M. Hall and V. Pascalutsa, Eur. Phys. J. C 72, 2206 (2012).
Separation of proton polarizabilities with the beam asymmetryof Compton scattering
Krupina and V. Pascalutsa, Phys. Rev. Lett 110, 262001 (2013).
Improved description of the πN-scatteringphenomenology in covariant baryon chiral perturbation theory
J. M. Alarcón, J. Martin Camalich, J. A. Oller, Annals Phys. 336, 413 (2013).
Chiral perturbation theory of muonic hydrogen Lamb shift: polarizability contribution
J. M. Alarcón, V. Lensky, and V. Pascalutsa, Eur. Phys. J. C 74, 2852 (2014).
The strangeness content of the nucleon from effective fieldtheory and phenomenology
J. M. Alarcon, L. S. Geng, J. Martin Camalich, J. A. Oller, Phys. Lett. B 730, 342 (2014).
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. C 90, 055202 (2014).
Measurements of the proton spin polarizabilities with double-polarized Compton scattering
P. P. Martel et al., Phys. Rev. Lett. 114, 112501 (2015).
Polarizability relations across real and virtual Compton scattering processes
V. Pascalutsa and M. Vanderhaeghen, Phys. Rev. D 91, 051503 (2015) [Rapid Communications].
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. A 91, 040502 (2015) [Rapid Communications].