Selected Review Articles

Nucleon Resonance Electroexcitation Amplitudes and Emergent Hadron Mass, Daniel S. Carman, Ralf W. Gothe, Victor I. Mokeev and Craig D. Roberts, e-Print: 2301.07777 [hep-ph], NJU-INP 069/23.  Particles 6 (2023) pp. 416-439.  Contribution to a Special Issue of PARTICLES: "Strong Interactions in the Standard Model: Massless Bosons to Compact Stars"

Emergence of Hadron Mass and Structure, Minghui Ding (丁明慧), Craig D. Roberts and Sebastian M. Schmidt, NJU-INP 066/22, e-Print: 2211.07763 [hep-ph].  Particles 6 (2023) pp. 57-120.  Contribution to a Special Issue of PARTICLES: "Strong Interactions in the Standard Model: Massless Bosons to Compact Stars"

Hadron and light nucleus radii from electron scattering, Zhu-Fang Cui (崔著钫), Daniele Binosi, Craig D. Roberts and Sebastian M. Schmidt, NJU-INP 058/22, e-Print: 2204.05418 [hep-ph], Chin. Phys. C 46 (2022) 122001/1-16 - Editors' Suggestion

Artificial Dynamical Effects in Quantum Field Theory, Stan J. Brodsky, Alexandre Deur and Craig D. Roberts, NJU-INP 048/21, e-Print: 2202.06051 [hep-ph], Nature Reviews Physics (2022), Nature Reviews Physics Vol. 4 Iss. 5 (2022) 

Science Requirements and Detector Concepts for the Electron-Ion Collider: EIC Yellow Report, R. Abdul Khalek et al. [incl. Craig D. Roberts], NJU-INP 039/21, arXiv: 2103.05419 [physics.ins-det], Nucl.Phys.A 1026 (2022) 122447 

Revealing the structure of light pseudoscalar mesons at the Electron-Ion Collider, John Arrington et al., [incl. Craig D. Roberts], NJU-INP 035/21, arXiv: 2102.11788 [nucl-ex],  J. Phys. G 48 (2021) 7, 075106

Electron-Ion Collider in China, D. P. Anderle et al. [incl. Craig D. Roberts], NJU-INP 035/21, arXiv:2102.09222 [nucl-ex], Front. Phys. (Beijing) 16 (2021) 6, 64701/1-78

Insights into the Emergence of Mass from Studies of Pion and Kaon Structure, Craig D. Roberts, David G. Richards, Tanja Horn and Lei Chang, NJU-INP 034/21, arXiv: 2102.01765 [hep-ph], Prog. Part. Nucl. Phys. 120 (2021) 103883/1-65 

On Mass and Matter, Craig D. Roberts, NJU-INP 029/20, arXiv: 2101.08340 [hep-ph].  Commissioned by the Bulletin of the Association of Asia Pacific Physical Societies (AAPPS): AAPPS Bulletin 31 (2021) 6/1-11

Diquark Correlations in Hadron Physics: Origin, Impact and Evidence, M. Yu. Barabanov et al. [incl. C. D. Roberts], NJU-INP 024/20, arXiv:2008.07630 [hep-ph], Prog. Part. Nucl. Phys. 116 (2021) 103835/1-66 

Impressions of the Continuum Bound State Problem in QCD, Si-Xue Qin and Craig D Roberts, NJU-INP 023/20, arXiv:2008.07629 [hep-ph], Chin. Phys. Lett. 37 (12) (2020) 121101/1-7 

Selected Science Opportunities for the EicC, Xurong Chen, Feng-Kun Guo, Craig D. Roberts and Rong Wang, NJU-INP 022/20, arXiv:2008.00102 [hep-ph], Few Body Syst. 61 (2020) 4, 43/1-37. Invited contribution to the Special Issue: "New Trends in Hadron Physics: a Few-Body Perspective" 

Empirical Consequences of Emergent Mass, Craig D. Roberts, NJU-INP 021/20, arXiv:2009.04011 [hep-ph], Symmetry (2020) 12(9), 1468/1-35  

Strong QCD from Hadron Structure Experiments, S. J. Brodsky et al. [incl. C. D. Roberts], NJU-INP 015/20, arXiv:2006.06802 [hep-ph], Int. J. Mod. Phys. E (in press) 

Electron Ion Collider in China (EicC), X. Cao et al. [incl. Craig D. Roberts], Nucl. Tech. 43 (2020) 020001/1-59 

Pion and Kaon Structure at the Electron-Ion Collider, Arlene C. Aguilar et al. [incl. Craig D. Roberts], NJU-INP 001/19, arXiv:1907.08218 [nucl-ex], Eur. Phys. J. A 55 (2019) 190/1-15   

Roper resonance: Toward a solution to the fifty year puzzle, Volker D. Burkert and Craig D. Roberts, arXiv:1710.02549 [nucl-ex], Rev. Mod. Phys. 91 (2019) 011003/1-18 

The pion: an enigma within the Standard Model, Tanja Horn and Craig D. Roberts, arXiv:1602.04016 [nucl-th], J. Phys. G 43 (2016) 073001/1-46 

Three Lectures on Hadron Physics, Craig D. Roberts, arXiv:1509.02925 [nucl-th] , J. Phys. Conf. Ser. 706 (2016) 022003/1-53. Summary of three lectures delivered at Hadron Physics XIII - XIII International Workshop on Hadron Physics, 22-27 March 2015, Hotel do Bosque, Angra dos Reis - RJ, Brazil 

Explanation and Prediction of Observables using Continuum Strong QCD, Ian C. Cloet and Craig D. Roberts, arXiv:1310.2651 [nucl-th], Prog. Part. Nucl. Phys. 77 (2014) pp. 1–69 [on-line] 

Strong QCD and Dyson-Schwinger Equations, Craig D. Roberts, arXiv:1203.5341 [nucl-th], IRMA Lect. Math. Theor. Phys. 21 (2015) 355-458.  Notes based on 5 lectures to the conference on "Dyson-Schwinger Equations & Faà di Bruno Hopf Algebras in Physics and Combinatorics (DSFdB2011)", Institut de Recherche Mathématique Avancée, l'Universite de Strasbourg et CNRS, Strasbourg, France, 27.06-01.07/2011. 

Collective perspective on advances in Dyson-Schwinger Equation QCD, Adnan Bashir, Lei Chang, Ian C. Cloet, Bruno El-Bennich, Yu-xin Liu, Craig D. Roberts and Peter C. Tandy, arXiv:1201.3366 [nucl-th], Commun. Theor. Phys. 58 (2012) pp. 79-134. Summary of lectures delivered by the authors at the Workshop on AdS/CFT and Novel Approaches to Hadron and Heavy Ion Physics, 11 Oct. -- 3 Dec. 2010, hosted by the Kavli Institute for Theoretical Physics, China, at the Chinese Academy of Sciences 

Selected highlights from the study of mesons, Lei Chang, Craig D. Roberts and Peter C. Tandy, arXiv:1107.4003 [nucl-th], Chin. J. Phys. 49 (2011) pp. 955-1004 

Hadron Physics: The Essence of Matter, Lei Chang and Craig D. Roberts, arXiv:1003.5006 [nucl-th], AIP Conf. Proc. 1361 (2011) pp. 91-114 (Contents). Contribution to the Proceedings of the "XII Mexican Workshop on Particles and Fields," based on presentations at the Workshop (9-14 Nov. 2009, Mazatlan, Mexico) and at the preceding Mini-School (5-8 Nov. 2009, Culiacan, Mexico).

Distribution Functions of the Nucleon and Pion in the Valence Region, Roy J. Holt and Craig D. Roberts, arXiv:1002.4666 [nucl-th], Rev. Mod. Phys. 82 (2010) pp. 2991-3044 

Aspects of Hadron Physics, Craig D. Roberts, Mandar S. Bhagwat, Arne Höll and Stewart V. Wright, arXiv:0802.0217 [nucl-th], Eur. Phys. J Special Topics 140 (2007) pp. 53-116 (this article -- 64 pages, issue's contents) Published in "Hadron Structure and Nonperturbative QCD." Proceedings of the 44th Winter School on Theoretical Physics (IUTP 44) Schladming, Austria: 11-18 March, 2006

Hadron Properties and Dyson-Schwinger Equations, C. D. Roberts, arXiv:0712.0633 [nucl-th], Prog. Part. Nucl. Phys. 61 (2008) pp. 50-65. Contribution to the Proceedings of "International School of Nuclear Physics -- 29th Course: Quarks in Hadrons and Nuclei", Erice-Sicily, 16-24 September, 2007 

Nucleon electromagnetic form factors, J. Arrington, C. D. Roberts and J. M. Zanotti, Invited Topical Review: nucl-th/0611050, J. Phys. G 34 (2007) pp. S23-S52. 

Hadron Physics and Dyson-Schwinger Equations, A. Höll, C. D. Roberts and S. V. Wright, nucl-th/0601071, Lecture notes (103 pages, 23 figures, summarising five lectures) contributed to the proceedings of the 20th Annual Hampton University Graduate Studies Program (HUGS 2005) JLab, 31 May - 17 Jun 2005 

Dyson-Schwinger equations: a tool for hadron physics, P. Maris and C. D. Roberts, nucl-th/0301049, Int. J. Mod. Phys. E 12 (2003) pp. 297-365 

Continuum Strong QCD: Confinement and Dynamical Chiral Symmetry Breaking, C. D. Roberts, nucl-th/0007054, Contribution to the proceedings of the Confinement Research Program at the Erwin Schroedinger International Institute for Mathematical Physics, Vienna, Austria, coordinated by W. Lucha, A. Martin and F. Schoeberl, May-July, 2000 

Dyson-Schwinger Equations: Density, Temperature and Continuum Strong QCD, C. D. Roberts and S. M. Schmidt, nucl-th/0005064, Prog. Part. Nucl. Phys. 45 (2000) pp. S1-S103 

Nonperturbative QCD with Modern Tools, C. D. Roberts, nucl-th/9807026. Contribution to the proceedings of the 11th Physics Summer School on Frontiers in Nuclear Physics: From Quark-Gluon Plasma to Supernova, ANU, Canberra, Australia, 12-23/Jan./1998 

Nonperturbative effects in QCD at Finite Temperature and Density, C. D. Roberts, nucl-th/9806088, Fiz. Elem. Chastits At. Yadra 30 (1999) pp. 537-612 (Phys. Part. Nucl. 30 (1999) pp. 223-257) 

Dyson-Schwinger Equations in QCD, C. D. Roberts, in Light-Front Quantization and Non-Perturbative QCD, Eds, J. P. Vary and F. Wölz. (publ. and distr. by International Institute of Theoretical and Applied Physics, Ames, Iowa, 1997), pp. 212-239 

Dyson-Schwinger Equations and their Application to Hadronic Physics, C. D. Roberts and A. G. Williams, hep-ph/9403224, Prog. Part. and Nucl. Phys., Vol. 33, pp. 475-575 (1994)