Refereed articles

  1. Pole-fitting for complex functions: enhancing standard techniques by artificial-neural-network classifiers and regressors,
    By S. Kaidisch, T. Hilger, A. Krassnigg, W. Lucha,
    Computer Physics Communications 295: 108998, 2024
  2. Accelerating Biocatalysis Discovery with Machine Learning: A Paradigm Shift in Enzyme Engineering, Discovery, and Design,
    M. Braun, C. C. Gruber, A. Krassnigg, A. Kummer, S. Lutz, G. Oberdorfer, E. Siirola, R. Snajdrova,
    ACS Catalyis 13: 14454–14469, 2023
  3. AI-assisted structural consensus-proteome prediction of human monkeypox viruses isolated within a year after the 2022 multi-country outbreak,
    L. Parigger, A. Krassnigg, S. Grabuschnig, K. Gruber, G. Steinkellner, C. C. Gruber, Microbiology Spectrum: e02315-23, 2023
  4. Identification and validation of fusidic acid and flufenamic acid as inhibitors of SARS-CoV-2 replication using DrugSolver CavitomiX,
    M. Hetmann, C. Langner, V. Durmaz, M. Cespugli, K. Köchl, A. Krassnigg, K. Blaschitz, S. Groiss, M. Loibner, D. Ruau, K. Zatloukal, K. Gruber, G. Steinkellner, C. C. Gruber,
    Scientific Reports 13: 11783, 2023
  5. Optimizing variant-specific therapeutic SARS-CoV-2 decoys using deep-learning-guided molecular dynamic simulations,
    K. Köchl, T. Schopper, V. Durmaz, L. Parigger, A. Singh, A. Krassnigg, M. Cespugli, W. Wu, X. Yang, Y. Zhang, W. W.-S. Wang, C. Selluski, T. Tiehan, X. Xin, C. Bai, L. Lin, Y. Hu, Z. Xie, Z. Zhang, J. Yan, K. Zatloukal, K. Gruber, G. Steinkellner, C. C. Gruber,
    Scientific Reports 13: 774, 2023
  6. Recent changes in the mutational dynamics of the SARS-CoV-2 main protease substantiate the danger of emerging resistance to antiviral drugs,
    by L. Parigger, A. Krassnigg, T. Schopper, A. Singh, K. Tappler, K. Köchl, M. Hetmann, K. Gruber, G. Steinkellner, C. C. Gruber,
    Frontiers in Medicine 9: 1061142, 2022
  7. 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 V. Durmaz, K. Köchl, A. Singh, M. Hetmann, L. Parigger, A. Krassnigg, D. Nutz, A. Korsunsky, C. König, L. Chang, M. Krebs, R. Bassetto, T. Pavkov-Keller, V. Resch, K. Gruber, G. Steinkellner, C. C. Gruber,
    Scientific Reports 12: 14534, 2022
  8. 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)
  9. 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
  10. 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)
  11. 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
  12. 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
  13. 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
  14. 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
  15. Bottomonium in a Bethe-Salpeter-equation study,
    By M. Blank, A. Krassnigg (Graz U.),
    Phys.Rev.D84:096014,2011
  16. 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
  17. A covariant study of tensor mesons,
    By A. Krassnigg, M. Blank (Graz U.),
    Phys.Rev.D83:096006,2011
  18. Matrix algorithms for solving (in)homogeneous bound state equations,
    By M. Blank, A. Krassnigg (Graz U.),
    Comput.Phys.Commun.182:1391,2011
  19. ρ meson, Bethe-Salpeter equation, and the far infrared,
    By M. Blank, A. Krassnigg, A. Maas (Graz U.),
    Phys.Rev.D83:034020,2011
  20. The QCD chiral transition temperature in a Dyson-Schwinger-equation context,
    By M. Blank, A. Krassnigg (Graz U.),
    Phys.Rev.D82:034006,2010
  21. 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
  22. Survey of J=0,1 mesons in a Bethe-Salpeter approach,
    By A. Krassnigg (Graz U.),
    Phys.Rev.D80:114010,2009
  23. Delta-baryon mass in a covariant Faddeev approach,
    By D. Nicmorus, G. Eichmann, A. Krassnigg, R. Alkofer (Graz U.),
    Phys.Rev.D80:054028,2009
  24. 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
  25. 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
  26. 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
  27. 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
  28. 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
  29. 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
  30. 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
  31. Axial-vector mesons in a relativistic point-form approach,
    By A. Krassnigg (Argonne, PHY),
    Phys.Rev.C72:028201,2005
  32. Pseudoscalar meson radial excitations,
    By A. Höll, A. Krassnigg, and C.D. Roberts (Argonne, PHY),
    Phys.Rev.C70:042203,2004
  33. 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
  34. 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
  35. 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
  36. 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