Refereed articles

  1. Structural-bioinformatics analysis of SARS-CoV-2 variants reveals higher hACE2 receptor binding affinity for Omicron B.1.1.529 spike RBD compared to wild-type reference,
    by Vedat Durmaz, Katharina Köchl, Amit Singh, Michael Hetmann, Lena Parigger, Andreas Krassnigg, Daniel Nutz, Alexander Korsunsky, Centina König, Lee Chang, Marius Krebs, Riccardo Bassetto, Tea Pavkov-Keller, Verena Resch, Karl Gruber, Georg Steinkellner, Christian C. Gruber,
    DOI: 10.21203/rs.3.rs-1153124/v1, accepted for publication in Scientific Reports
  2. Aspects of open-flavour mesons in a comprehensive DSBSE study,
    By T. Hilger (Vienna, OAW), M. Gómez-Rocha (ECT, Trento), A. Krassnigg (Graz U.), W. Lucha (Vienna, OAW),
    Eur.Phys.J.A53:213,2017
    View-only online full-text: http://rdcu.be/xNh0 (via Springer Nature SharedIt initiative)
  3. Light-quarkonium spectra and orbital-angular-momentum decomposition in a Bethe-Salpeter-equation approach,
    By T. Hilger (Graz U.), M. Gomez-Rocha (Graz U. & Vienna, OAW), A. Krassnigg (Graz U.),
    Eur.Phys.J.C77:625,2017
  4. Quasi-exotic open-flavor mesons,
    By T. Hilger, A. Krassnigg (Graz U.),
    Eur.Phys.J.A53:142,2017
    View-only online full-text: http://rdcu.be/tKAe (via Springer Nature SharedIt initiative)
  5. Effects of a dressed quark-gluon vertex in vector heavy-light mesons and theory average of the B(c)* meson mass,
    By M. Gomez-Rocha (ECT, Trento), T. Hilger, A. Krassnigg (Graz U.),
    Phys.Rev.D93:074010,2016
  6. Effects of a dressed quark-gluon vertex in pseudoscalar heavy-light mesons,
    By M. Gomez-Rocha (Graz U. & Vienna, OAW), T. Hilger, A. Krassnigg (Graz U.),
    Phys.Rev.D92:054030,2015
  7. Masses of $latex J^{PC} =1^{-+}$ exotic quarkonia in a Bethe-Salpeter-equation approach,
    By T. Hilger (Graz U.), M. Gomez-Rocha (Graz U. & Vienna, OAW), A. Krassnigg (Graz U.),
    Phys.Rev.D91:114004,2015
  8. Spectra of heavy quarkonia in a Bethe-Salpeter-equation approach,
    By T. Hilger, C. Popovici, M. Gomez-Rocha, A. Krassnigg (Graz U.),
    Phys.Rev.D91:034013,2015
  9. Bottomonium in a Bethe-Salpeter-equation study,
    By M. Blank, A. Krassnigg (Graz U.),
    Phys.Rev.D84:096014,2011
  10. Hadronic decays of mesons and baryons in the Dyson-Schwinger approach,
    By V. Mader (Graz U.), G. Eichmann (Giessen U.), M. Blank, A. Krassnigg (Graz U.),
    Phys.Rev.D84:034012,2011
  11. A covariant study of tensor mesons,
    By A. Krassnigg, M. Blank (Graz U.),
    Phys.Rev.D83:096006,2011
  12. Matrix algorithms for solving (in)homogeneous bound state equations,
    By M. Blank, A. Krassnigg (Graz U.),
    Comput.Phys.Commun.182:1391,2011
  13. ρ meson, Bethe-Salpeter equation, and the far infrared,
    By M. Blank, A. Krassnigg, A. Maas (Graz U.),
    Phys.Rev.D83:034020,2011
  14. The QCD chiral transition temperature in a Dyson-Schwinger-equation context,
    By M. Blank, A. Krassnigg (Graz U.),
    Phys.Rev.D82:034006,2010
  15. Nucleon mass from a covariant three-quark Faddeev equation,
    By G. Eichmann, R. Alkofer, A. Krassnigg, D. Nicmorus (Graz U.),
    Phys.Rev.Lett.104:201601,2010
  16. Survey of J=0,1 mesons in a Bethe-Salpeter approach,
    By A. Krassnigg (Graz U.),
    Phys.Rev.D80:114010,2009
  17. Delta-baryon mass in a covariant Faddeev approach,
    By D. Nicmorus, G. Eichmann, A. Krassnigg, R. Alkofer (Graz U.),
    Phys.Rev.D80:054028,2009
  18. Toward unifying the description of meson and baryon properties,
    By G. Eichmann (Argonne, PHY & Graz U.), I.C. Cloet (Argonne, PHY), R. Alkofer, A. Krassnigg (Graz U.), C.D. Roberts (Argonne, PHY),
    Phys.Rev.C79:012202(R),2009
  19. Perspective on rainbow-ladder truncation,
    By G. Eichmann (Argonne, PHY & Graz U.), R. Alkofer (Graz U.), I.C. Cloet (Argonne, PHY), A. Krassnigg (Graz U.), C.D. Roberts (Argonne, PHY),
    Phys.Rev.C77:042202(R),2008
  20. A covariant view on the nucleons’ quark core,
    By G. Eichmann, A. Krassnigg, M. Schwinzerl, R. Alkofer (Graz U.),
    Annals Phys.323:2505-2553,2008
  21. Schwinger functions and light-quark bound states,
    By M.S. Bhagwat (Argonne, PHY), A. Hoell (Rostock U.), A. Krassnigg (Graz U.), C.D. Roberts, S.V. Wright (Argonne, PHY),
    Few Body Syst.40:209-235,2007
  22. Aspects of the confinement mechanism in Coulomb-gauge QCD,
    By R. Alkofer, M. Kloker, A. Krassnigg, and R. F. Wagenbrunn (Graz U.),
    Phys.Rev.Lett.96:022001,2006
  23. Electromagnetic properties of ground and excited state pseudoscalar mesons,
    By A. Höll, A. Krassnigg (Argonne, PHY), P. Maris (Pittsburgh U.), C.D. Roberts, and S.V.
    Wright (Argonne, PHY),
    Phys.Rev.C71:065204,2005
  24. On nucleon electromagnetic form-factors,
    By R. Alkofer (Tubingen U.), A. Höll (Argonne, PHY), M. Kloker (Tubingen U.), A. Krassnigg, and C.D. Roberts (Argonne, PHY),
    Few Body Syst.37:1-31,2005
  25. Axial-vector mesons in a relativistic point-form approach,
    By A. Krassnigg (Argonne, PHY),
    Phys.Rev.C72:028201,2005
  26. Pseudoscalar meson radial excitations,
    By A. Höll, A. Krassnigg, and C.D. Roberts (Argonne, PHY),
    Phys.Rev.C70:042203,2004
  27. Aspects and consequences of a dressed-quark-gluon vertex,
    By M.S. Bhagwat (Kent State U.), A. Höll, A. Krassnigg, C.D. Roberts (Argonne, PHY), and P.C. Tandy (Kent State U.),
    Phys.Rev.C70:035205,2004
  28. Regarding proton form factors,
    By J.C.R. Bloch (Tubingen U.), A. Krassnigg, C.D. Roberts (Argonne, PHY),
    Few Body Syst.33:219-232,2003
  29. Vector mesons in a relativistic point-form approach,
    By A. Krassnigg, W. Schweiger (Graz U.), W. H. Klink (Iowa U.),
    Phys.Rev.C67:064003,2003
  30. Faddeev approach to confined three quark problems,
    By Z. Papp (Debrecen, Inst. Nucl. Res.), A. Krassnigg, W. Plessas (Graz U.),
    Phys.Rev.C62:044004,2000