[1]

Claude Amsler and others. Review of Particle Physics. Phys. Lett., B667:1–1340, 2008.

[2]

Claude Amsler and others. Review of Particle Physics - 2009 partial update for the 2010 edition, 2009.

[3]

Andrei V. Belitsky, Dieter Mueller, and A. Kirchner. Theory of deeply virtual Compton scattering on the nucleon. Nucl. Phys., B629:323–392, 2002.

[4]

Andrei V. Belitsky, Dieter Müller, and Yao Ji. Compton scattering: from deeply virtual to quasi-real. Nucl. Phys., B878:214–268, 2014.

[5]

K. G. Chetyrkin, Bernd A. Kniehl, and M. Steinhauser. Decoupling relations to O (alpha-s**3) and their connection to low-energy theorems. Nucl. Phys., B510:61–87, 1998.

[6]

M. Czakon. The Four-loop QCD beta-function and anomalous dimensions. Nucl. Phys., B710:485–498, 2005.

[7]

S. V. Goloskokov and P. Kroll. The Longitudinal cross-section of vector meson electroproduction. Eur. Phys. J., C50:829–842, 2007.

[8]

S. V. Goloskokov and P. Kroll. The Role of the quark and gluon GPDs in hard vector-meson electroproduction. Eur. Phys. J., C53:367–384, 2008.

[9]

S. V. Goloskokov and P. Kroll. The Target asymmetry in hard vector-meson electroproduction and parton angular momenta. Eur. Phys. J., C59:809–819, 2009.

[10]

S. V. Goloskokov and P. Kroll. An Attempt to understand exclusive pi+ electroproduction. Eur. Phys. J., C65:137–151, 2010.

[11]

S. V. Goloskokov and P. Kroll. Transversity in hard exclusive electroproduction of pseudoscalar mesons. Eur. Phys. J., A47:112, 2011.

[12]

S. V. Goloskokov and P. Kroll. The pion pole in hard exclusive vector-meson leptoproduction. Eur. Phys. J., A50(9):146, 2014.

[13]

D. S. Hwang and Dieter Mueller. Implication of the overlap representation for modelling generalized parton distributions. Phys. Lett., B660:350–359, 2008.

[14]

R. Jakob, P. J. Mulders, and J. Rodrigues. Modeling quark distribution and fragmentation functions. Nucl. Phys., A626:937–965, 1997.

[15]

Peter Kroll, Herve Moutarde, and Franck Sabatie. From hard exclusive meson electroproduction to deeply virtual Compton scattering. Eur. Phys. J., C73(1):2278, 2013.

[16]

Kresimir Kumerički and Dieter Mueller. Deeply virtual Compton scattering at small x_B and the access to the GPD H. Nucl. Phys., B841:1–58, 2010.

[17]

C. Mezrag, H. Moutarde, and F. Sabatié. Test of two new parametrizations of the generalized parton distribution H. Phys. Rev., D88(1):014001, 2013.

[18]

H. Moutarde, B. Pire, F. Sabatie, L. Szymanowski, and J. Wagner. Timelike and spacelike deeply virtual Compton scattering at next-to-leading order. Phys. Rev., D87(5):054029, 2013.

[19]

Dieter Müller and Dae Sung Hwang. The concept of phenomenological light-front wave functions – Regge improved diquark model predictions. 2014.

[20]

K. Nakamura and others. Review of particle physics. J. Phys., G37:075021, 2010.

[21]

A. V. Vinnikov. Code for prompt numerical computation of the leading order GPD evolution. 2006.