Robert Harlander

Institut für Theoretische Teilchenphysik und Kosmologie
Fakultät für Mathematik, Informatik, Naturwissenschaften
RWTH Aachen University
52056 Aachen, Germany
phone: +49-241-80-27045
fax: +49-241-80-22187
harlander(at)physik.rwth-aachen.de
Büro: 28A414, Campus Melaten

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Robert Harlander: Research Interests -/- Home -/- TTP Karlsruhe -/- CERN Theory -/- HET Brookhaven

Research interests:


All my papers


  1. R. Harlander, S.Y. Klein, M. Schaaf,
    FeynGame-2.1 – Feynman diagrams made easy
    PoS EPS-HEP2023 (2024) 657 [arXiv:2401.12778]
  2. J. Borgulat, R.V. Harlander, J.T. Kohnen, F. Lange,
    Short-flow-time expansion of quark bilinears through next-to-next-to-leading order QCD
    [arXiv:2311.16799]
  3. M. Black, R. Harlander, F. Lange, A. Rago, A. Shindler,O. Witzel,
    Using Gradient Flow to Renormalise Matrix Elements for Meson Mixing and Lifetimes
    [arXiv:2310.18059]
  4. R.V. Harlander and M.C. Schaaf,
    AutoEFT: Automated Operator Construction for Effective Field Theories
    [arXiv:2309.15783]
  5. R. Harlander,
    Das Standardmodell – Oder: Nichts hält länger als ein Provisorium
    In: H. Fink, M. Kuhlmann (eds), Unbestimmt und relativ?: Das Weltbild der modernen Physik. Springer (2023)
  6. R. Harlander, J.-P. Martinez, G. Schiemann,
    The end of the particle era?
    EPJH 48 (2023) 6
  7. R.V. Harlander, T. Kempkens, M.C. Schaaf,
    Standard Model Effective Field Theory up to Mass Dimension 12
    Phys. Rev. D 108 (2023) 055020 [arXiv:2305.06832]
  8. J. Borgulat, R. Harlander, M.D. Rizik, and A. Shindler,
    Two-loop matching of the chromo-magnetic dipole operator with the gradient flow
    39th International Symposium on Lattice Field Theory PoS(LATTICE2022) (2022) 313 [arXiv:2212.09824]
  9. R.V. Harlander and F. Lange,
    The effective electroweak Hamiltonian in the gradient-flow formalism
    Phys. Rev. D 105 (2022) L071504 [arXiv:2201.08618]
  10. R. Harlander,
    The gradient flow at higher orders in perturbation theory
    38th International Symposium on Lattice Field Theory PoS(LATTICE2021) (2021) 489 [arXiv:2111.14376]
  11. R. Harlander and F. Lange,
    The electroweak Hamiltonian in the gradient flow formalism
    [arXiv:2110.15759]
  12. R. Harlander,
    Feynman diagrams – from complexity to simplicity and back
    Synthese 199 (2021) 15087 [preprint]
  13. M. Czakon, R.V. Harlander, J. Klappert, M. Niggetiedt,
    Exact top-quark mass dependence in hadronic Higgs production
    Phys. Rev. Lett. 127 (2021) 162002 [arXiv:2105.04436]
  14. P. Slavich, S. Heinemeyer, E. Bagnaschi, H. Bahl, M. Goodsell, H.E. Haber, T. Hahn, R. Harlander, W. Hollik, G. Lee, M. Mühlleitner, S. Paßehr, H. Rzehak, D. Stöckinger, A. Voigt, C.E.M. Wagner, G. Weiglein, B.C. Allanach, T. Biekötter, S. Borowka, J. Braathen, M. Carena, T.N. Dao, G. Degrassi, F. Domingo, P. Drechsel, U. Ellwanger, M. Gabelmann, R. Gröber, J. Klappert, T. Kwasnitza, D. Meuser, L. Mihaila, N. Murphy, K. Nickel, W. Porod, E.A. Reyes Rojas, I. Sobolev, F. Staub,
    Higgs-mass predictions in the MSSM and beyond
    Eur. Phys. J. C 81 (2021) 450 [arXiv:2012.15629]
  15. R.V. Harlander, J. Klappert, and A. Voigt,
    The light CP-even MSSM Higgs mass including N3LO+N3LL QCD corrections
    Eur. Phys. J. 80 (2020) 186 [arXiv:1910.03595]
  16. R.V. Harlander, S.Y. Klein, M. Lipp,
    FeynGame
    Comp. Phys. Comm. 256 (2020) 107465 [arXiv:2003.00896]
  17. R.V. Harlander, F. Lange, T. Neumann,
    Hadronic vacuum polarization using gradient flow
    JHEP 08 (2020) 109 [arXiv:2007.01057]
  18. R. Harlander,
    Erzeugung und Vernichtung von Teilchen
    In: O. Passon, T. Zügge, J. Grebe-Ellis (eds), Kohärenz im Unterricht der Elementarteilchenphysik. Springer Spektrum, Berlin, Heidelberg. (2020)
  19. R.V. Harlander, M. Prausa, and J. Usovitsch,
    The light-fermion contribution to the exact Higgs-gluon form factor in QCD
    JHEP 10 (2019) 148 [arXiv:1907.06957]
  20. J. Rosaler and R. Harlander,
    Naturalness, Wilsonian Renormalization, and "Fundamental Parameters" in Quantum Field Theory
    Studies in History and Philosophy of Modern Physics 66 (2019) 118-134 [arXiv:1809.09489]
  21. J. Artz, R.V. Harlander, F. Lange, T. Neumann, and M. Prausa,
    Results and techniques for higher order calculations within the gradient flow formalism
    JHEP 06 (2019) 121 [err. ibid. 10 (2019) 032]
    [arXiv:1905.00882]
  22. R. Harlander and J. Rosaler,
    Higgs Naturalness and Renormalized Parameters
    Foundations of Physics 49 (2019) 879-897
  23. J. Rosaler, R. Harlander, G. Schiemann, M.A. Carretero Sahuquillo,
    Preface
    Foundations of Physics 49 (2019) 855
  24. J. Rosaler, R. Harlander, G. Schiemann, M.A. Carretero Sahuquillo (eds.),
    Special Issue: Naturalness, Hierarchy, and Fine-Tuning
    Foundations of Physics 49 (2019)
  25. R.V. Harlander, Y. Kluth, and F. Lange,
    The two-loop energy-momentum tensor within the gradient-flow formalism
    Eur. Phys. J. C 78 (2018) 944 [err. ibid. C79 (2019) 858]
    [arXiv:1808.09837]
  26. R.V. Harlander, J. Klappert, A.D. Ochoa Franco, and A. Voigt,
    The light CP-even MSSM Higgs mass resummed to fourth logarithmic order
    Eur. Phys. J. 78 (2018) 874 [arXiv:1807.03509]
  27. R.V. Harlander, J. Klappert, C. Pandini, and A. Papaefstathiou,
    Exploiting the WH/ZH symmetry in the search for New Physics
    Eur. Phys. J. C 78 (2018) 760 [arXiv:1804.02299]
  28. R.V. Harlander, J. Klappert, S. Liebler, and L. Simon,
    vh@nnlo-v2: New physics in Higgs Strahlung
    JHEP 05 (2018) 089 [arXiv:1802.04817]
  29. R.V. Harlander, J. Klappert, and A. Voigt,
    Higgs mass prediction in the MSSM at three-loop level in a pure DRbare context
    Eur. Phys. J. C 77 (2017) 814 [arXiv:1708.05720]
  30. R.V. Harlander, S. Liebler, and H. Mantler,
    SusHi Bento: Beyond NNLO and the heavy-top limit
    Comput. Phys. Commun. 212 (2017) 239-257 [arXiv:1605.03190]
  31. E. Bagnaschi, R.V. Harlander, H. Mantler, A. Vicini, and M. Wiesemann,
    Resummation ambiguities in the Higgs transverse-momentum spectrum in the Standard Model and beyond
    JHEP 01 (2016) 090 [arXiv:1510.08850]
  32. R.V. Harlander,
    Higgs production in heavy quark annihilation through next-to-next-to-leading order QCD
    Eur. Phys. J. C 76 (2016) 252 [arXiv:1512.04901]
  33. D. de Florian et al.,
    Handbook of LHC Higgs Cross Sections: 4. Deciphering the Nature of the Higgs Sector
    [arXiv:1610.07922]
  34. R.V. Harlander and T. Neumann,
    The perturbative QCD gradient flow to three loops
    JHEP 06 (2016) 161 [arXiv:1606.03756]
  35. S. Friederich, R.V. Harlander, and K. Karaca,
    Philosophical perspectives on ad hoc-hypotheses and the Higgs mechanism
    Synthese 191 (2014) 3897 [arXiv:1305.5110]
  36. R.V. Harlander, A. Kulesza, V. Theeuwes, and T. Zirke,
    Soft gluon resummation for gluon-induced Higgs Strahlung
    JHEP 11 (2014) 082 [arXiv:1410.0217]
  37. R.V. Harlander, H. Mantler, and M. Wiesemann,
    Transverse momentum resummation for Higgs production via gluon fusion in the MSSM
    JHEP 11 (2014) 116 [arXiv:1409.0531]
  38. R. Harlander, A. Tripathi, and M. Wiesemann,
    Resummed Higgs $p_T$ distribution at NNLO+NNLL in bottom-quark annihilation
    PoS LL2014 (2014) 065 Proceedings, 12th DESY Workshop on Elementary Particle Physics: Loops and Legs in Quantum Field Theory (LL2014): Weimar, Germany, April 27-May 2, 2014
    [arXiv:1407.3184]
  39. E. Bagnaschi, R.V. Harlander, S. Liebler, H. Mantler, P. Slavich, and A. Vicini,
    Towards precise predictions for Higgs-boson production in the MSSM
    JHEP 06 (2014) 167 [arXiv:1404.0327]
  40. R.V. Harlander, A. Tripathi, and M. Wiesemann,
    Higgs production in bottom quark annihilation: Transverse momentum distribution at NNLO$+$NNLL
    Phys. Rev. D 90 (2014) 015017 [arXiv:1403.7196]
  41. R.V. Harlander, S. Liebler, and T. Zirke,
    Higgs Strahlung at the Large Hadron Collider in the 2-Higgs-Doublet Model
    JHEP 02 (2014) 023 [arXiv:1307.8122]
  42. O. Brein, R.V. Harlander, and T.J.E. Zirke,
    vh@nnlo - Higgs Strahlung at hadron colliders
    Comput. Phys. Commun. 184 (2013) 998-1003 [arXiv:1210.5347]
  43. R.V. Harlander, S. Liebler, and H. Mantler,
    SusHi: A program for the calculation of Higgs production in gluon fusion and bottom-quark annihilation in the Standard Model and the MSSM
    Comput. Phys. Commun. 184 (2013) 1605-1617 [arXiv:1212.3249]
  44. L. Altenkamp, S. Dittmaier, R.V. Harlander, H. Rzehak, and T.J.E. Zirke,
    Gluon-induced Higgs-strahlung at next-to-leading order QCD
    JHEP 02 (2013) 078 [arXiv:1211.5015]
  45. J.R. Andersen et al.,
    Handbook of LHC Higgs Cross Sections: 3. Higgs Properties
    [arXiv:1307.1347]
  46. R.V. Harlander and T. Neumann,
    Probing the nature of the Higgs-gluon coupling
    Phys. Rev. D. 88 (2013) 074015 [arXiv:1308.2225]
  47. R. Harlander, M. Mühlleitner, J. Rathsman, M. Spira, and O. Stål,
    Interim recommendations for the evaluation of Higgs production cross sections and branching ratios at the LHC in the Two-Higgs-Doublet Model
    [arXiv:1312.5571]
  48. R. Harlander,
    Higgs production in bottom quark annihilation and gluon fusion
    PoS LL2012 (2012) 040 Proceedings, 11th DESY Workshop on Elementary Particle Physics: Loops and Legs in Quantum Field Theory: Wernigerode, Germany, April 15-20, 2012

  49. O. Brein, R. Harlander, M. Wiesemann, and T. Zirke,
    Top-Quark Mediated Effects in Hadronic Higgs-Strahlung
    Eur. Phys. J. C 72 (2012) 1868 [arXiv:1111.0761]
  50. R. Harlander and M. Wiesemann,
    Jet-veto in bottom-quark induced Higgs production at next-to-next-to-leading order
    JHEP 04 (2012) 066 [arXiv:1111.2182]
  51. S. Dittmaier et al.,
    Handbook of LHC Higgs Cross Sections: 2. Differential Distributions
    [arXiv:1201.3084]
  52. R.V. Harlander, T. Neumann, K.J. Ozeren, and M. Wiesemann,
    Top-mass effects in differential Higgs production through gluon fusion at order \alpha_s^4
    JHEP 08 (2012) 139 [arXiv:1206.0157]
  53. R. Harlander, M. Kramer, and M. Schumacher,
    Bottom-quark associated Higgs-boson production: reconciling the four- and five-flavour scheme approach
    [arXiv:1112.3478]
  54. S. Dittmaier et al.,
    Handbook of LHC Higgs Cross Sections: 1. Inclusive Observables
    [arXiv:1101.0593]
  55. R.V. Harlander, F. Hofmann, and H. Mantler,
    Supersymmetric Higgs production in gluon fusion
    JHEP 02 (2011) 055 [arXiv:1012.3361]
  56. R. Harlander,
    Higgs production – Higher orders and finite top mass effects
    Proceedings, 45th Rencontres de Moriond on Electroweak Interactions and Unified Theories: La Thuile, Italy, March 6-13, 2010

  57. R.V. Harlander, K.J. Ozeren, and M. Wiesemann,
    Higgs plus jet production in bottom quark annihilation at next-to-leading order
    Phys. Lett. B 693 (2010) 269-273 [arXiv:1007.5411]
  58. P. Kant, R.V. Harlander, L. Mihaila, and M. Steinhauser,
    Light MSSM Higgs boson mass to three-loop accuracy
    JHEP 08 (2010) 104 [arXiv:1005.5709]
  59. R. Harlander, H. Mantler, S. Marzani, and K. Ozeren,
    Higgs production in gluon fusion at NNLO for finite top quark mass
    PoS RADCOR2009 (2010) 049 Proceedings, 9th International Symposium on Radiative Corrections: Applications of quantum field theory to phenomenology. (RADCOR 2009): Ascona, Switzerland, October 25-30, 2009
    [arXiv:1001.2971]
  60. R.V. Harlander, H. Mantler, S. Marzani, and K.J. Ozeren,
    Higgs production in gluon fusion at next-to-next-to-leading order QCD for finite top mass
    Eur. Phys. J. C 66 (2010) 359-372 [arXiv:0912.2104]
  61. R.V. Harlander, L. Mihaila, and M. Steinhauser,
    The SUSY-QCD beta function to three loops
    Eur. Phys. J. C 63 (2009) 383-390 [arXiv:0905.4807]
  62. R.V. Harlander and K.J. Ozeren,
    Top mass effects in Higgs production at next-to-next-to-leading order QCD: Virtual corrections
    Phys. Lett. B 679 (2009) 467-472 [arXiv:0907.2997]
  63. R.V. Harlander and K.J. Ozeren,
    Finite top mass effects for hadronic Higgs production at next-to-next-to-leading order
    JHEP 11 (2009) 088 [arXiv:0909.3420]
  64. R. Harlander,
    Higgs production at the Large Hadron Collider: theoretical status
    J. Phys. G 35 (2008) 033001
  65. R.V. Harlander, P. Kant, L. Mihaila, and M. Steinhauser,
    Higgs boson mass in supersymmetry to three loops
    Phys. Rev. Lett. 100 (2008) 191602 [arXiv:0803.0672]
  66. R.V. Harlander, J. Vollinga, and M.M. Weber,
    Gluon-Induced Weak Boson Fusion
    Phys. Rev. D 77 (2008) 053010 [arXiv:0801.3355]
  67. R. Harlander, P. Kant, L. Mihaila, and M. Steinhauser,
    Dimensional reduction applied to QCD at higher orders
    Proceedings, 15th International Workshop on Deep-inelastic scattering and related subjects (DIS 2007). Vol. 1 and 2: Munich, Germany, April 16-20, 2007
    [arXiv:0706.2982]
  68. R.V. Harlander, L. Mihaila, and M. Steinhauser,
    Running of alpha(s) and m(b) in the MSSM
    Phys. Rev. D 76 (2007) 055002 [arXiv:0706.2953]
  69. R. Harlander,
    Higgs theory overview
    Acta Phys. Polon. B 38 (2007) 693-704Physics at LHC. Proceedings, 3rd Conference, Cracow, Poland, July 3-8, 2006

  70. R. Harlander,
    Standard and SUSY Higgs production at the LHC
    Pramana 67 (2006) 875-884 High Energy Physics Phenomenology. Proceedings, 9th Workshop, WHEPP 9, Bhubaneswar, India, January 3-14, 2006
    [hep-ph/0606095]
  71. C. Buttar et al.,
    Les houches physics at TeV colliders 2005, standard model and Higgs working group: Summary report
    Physics at TeV colliders. Proceedings, Workshop, Les Houches, France, May 2-20, 2005
    [hep-ph/0604120]
  72. R.V. Harlander and F. Hofmann,
    Pseudo-scalar Higgs production at next-to-leading order SUSY-QCD
    JHEP 03 (2006) 050 [hep-ph/0507041]
  73. R. Harlander, P. Kant, L. Mihaila, and M. Steinhauser,
    Dimensional Reduction applied to QCD at three loops
    JHEP 09 (2006) 053 [hep-ph/0607240]
  74. V. Ravindran, A. Tripathi, P. Agrawal, R. Basu, S. Bhattacharya, J. Blumlein, V. Del Duca, R. Harlander, D. Kosower, and P. Mathews,
    Working group report: Quantum chromodynamics
    Pramana 67 (2006) 983-992 High Energy Physics Phenomenology. Proceedings, 9th Workshop, WHEPP 9, Bhubaneswar, India, January 3-14, 2006

  75. R.V. Harlander, D.R.T. Jones, P. Kant, L. Mihaila, and M. Steinhauser,
    Four-loop beta function and mass anomalous dimension in dimensional reduction
    JHEP 12 (2006) 024 [hep-ph/0610206]
  76. R. Harlander and P. Kant,
    Higgs production and decay: Analytic results at next-to-leading order QCD
    JHEP 12 (2005) 015 [hep-ph/0509189]
  77. R. Harlander, L. Mihaila, and M. Steinhauser,
    Two-loop matching coefficients for the strong coupling in the MSSM
    Phys. Rev. D 72 (2005) 095009 [hep-ph/0509048]
  78. O. Brein, M. Ciccolini, S. Dittmaier, A. Djouadi, R. Harlander, and M. Kramer,
    Precision calculations for associated WH and ZH production at hadron colliders
    Physics at TeV colliders. Proceedings, Workshop, Les Houches, France, May 26-June 3, 2003
    [hep-ph/0402003]
  79. O. Brein, A. Djouadi, and R. Harlander,
    NNLO QCD corrections to the Higgs-strahlung processes at hadron colliders
    Phys. Lett. B 579 (2004) 149-156 [hep-ph/0307206]
  80. R. Harlander,
    Supersymmetric Higgs production at the Large Hadron Collider
    Eur. Phys. J. C 33 (2004) S454-S456 Proceedings, International Europhysics Conference on High energy physics (HEP 2003): Aachen, Germany, July 17-23, 2003
    [hep-ph/0311005]
  81. K.A. Assamagan et al.,
    The Higgs working group: Summary report 2003
    Physics at TeV colliders. Proceedings, Workshop, Les Houches, France, May 26-June 3, 2003
    [hep-ph/0406152]
  82. R.V. Harlander and M. Steinhauser,
    Supersymmetric Higgs production in gluon fusion at next-to-leading order
    JHEP 09 (2004) 066 [hep-ph/0409010]
  83. R. Harlander,
    Precise predictions for Higgs cross sections at the Large Hadron Collider
    Nucl. Phys. Proc. Suppl. 135 (2004) 30-34 Loops and legs in quantum field theory. Proceedings, 7th Workshop on Elementary Particle Theory, Zinnowitz, Germany, April 25-30, 2004

  84. R. Harlander and M. Steinhauser,
    Effects of SUSY QCD in hadronic Higgs production at next-to-next-to-leading order
    Phys. Rev. D 68 (2003) 111701 [hep-ph/0308210]
  85. R.V. Harlander and M. Steinhauser,
    Hadronic Higgs production and decay in supersymmetry at next-to-leading order
    Phys. Lett. B 574 (2003) 258-268 [hep-ph/0307346]
  86. R.V. Harlander and W.B. Kilgore,
    Techniques for NNLO Higgs production in the standard model and the MSSM
    Proceedings, 38th Rencontres de Moriond on QCD and High-Energy Hadronic Interactions: Les Arcs, France, March 22-29, 2003
    [hep-ph/0305204]
  87. R.V. Harlander and W.B. Kilgore,
    Higgs boson production in bottom quark fusion at next-to-next-to leading order
    Phys. Rev. D 68 (2003) 013001 [hep-ph/0304035]
  88. R.V. Harlander and M. Steinhauser,
    rhad: A Program for the evaluation of the hadronic R ratio in the perturbative regime of QCD
    Comput. Phys. Commun. 153 (2003) 244-274 [hep-ph/0212294]
  89. W.B. Kilgore and R.V. Harlander,
    Inclusive Higgs boson production at hadron colliders at next-to-next-to-leading order
    Proceedings, 37th Rencontres de Moriond, 2002 QCD and high energy hadronic interactions: Les Arcs, Savoie, France, Mar 16-23, 2002
    [hep-ph/0205152]
  90. M. Fischler et al.,
    Summaries of Recent Computer-Assisted Feynman Diagram Calculations
    AIP Conf. Proc. 583 (2002) 280 Advanced computing and analysis techniques in physics research. Proceedings, 7th International Workshop, ACAT 2000, Batavia, USA, October 16-20, 2000

  91. R.V. Harlander and W.B. Kilgore,
    Next-to-next-to-leading order Higgs production at hadron colliders
    Phys. Rev. Lett. 88 (2002) 201801 [hep-ph/0201206]
  92. R.V. Harlander and W.B. Kilgore,
    Production of a pseudoscalar Higgs boson at hadron colliders at next-to-next-to leading order
    JHEP 10 (2002) 017 [hep-ph/0208096]
  93. R.V. Harlander,
    Recent theoretical progress on Higgs production at hadron colliders
    Hadron collider physics. Proceedings, 14th Topical Conference, HCP 2002, Karlsruhe, Germany, September 29-October 4, 2002

  94. R. Harlander and W. Kilgore,
    Scalar and pseudoscalar Higgs production at hadron colliders
    Application of quantum field theory to phenomenology. Loops and legs in quantum field theory. Proceedings, 6th International Symposium, RADCOR 2002, and 6th Zeuthen Workshop, Staffelstein, Germany, September 8-13, 2002
    [hep-ph/0211380]
  95. E.L. Berger et al.,
    Summary: Working group on QCD and strong interactions
    eConf C010630 (2001) P5001Proceedings, APS / DPF / DPB Summer Study on the Future of Particle Physics (Snowmass 2001), Snowmass, Colorado, 30 Jun - 21 Jul 2001
    [hep-ph/0201146]
  96. R.V. Harlander and W.B. Kilgore,
    Inclusive Higgs production at next-to-next-to leading order
    eConf C010630 (2001) P506Proceedings, APS / DPF / DPB Summer Study on the Future of Particle Physics (Snowmass 2001), Snowmass, Colorado, 30 Jun - 21 Jul 2001
    [hep-ph/0110200]
  97. J.A. Aguilar-Saavedra et al.,
    TESLA: The Superconducting electron positron linear collider with an integrated x-ray laser laboratory. Technical design report. Part 3. Physics at an e+ e- linear collider
    [hep-ph/0106315]
  98. R.V. Harlander,
    Pade approximation to fixed order QCD calculations
    Proceedings, 5th International Symposium on Radiative Corrections - RADCOR 2000
    [hep-ph/0102266]
  99. R.V. Harlander and W.B. Kilgore,
    Soft and virtual corrections to proton proton → H + X at NNLO
    Phys. Rev. D 64 (2001) 013015 [hep-ph/0102241]
  100. R. Harlander and W. Kilgore,
    Higgs production in gluon fusion to O(αs4)
    Int. J. Mod. Phys. A16S1A (2001) 305-307 Particles and fields. Proceedings, Meeting, DPF 2000, Columbus, USA, August 9-12, 2000
    [hep-ph/0012176]
  101. R.V. Harlander,
    Virtual corrections to g g → H to two loops in the heavy top limit
    Phys. Lett. B 492 (2000) 74-80 [hep-ph/0007289]
  102. K.G. Chetyrkin, R.V. Harlander, and J.H. Kühn,
    Quartic mass corrections to Rhad at O(αs3)
    Nucl. Phys. B. 586 (2000) 56-72 [err. ibid. B634 (2002) 413]
    [hep-ph/0005139]
  103. K.G. Chetyrkin, R. Harlander, T. Seidensticker, and M. Steinhauser,
    Second order QCD corrections to the top decay rate
    Proceedings, International Europhysics Conference on High energy physics (EPS-HEP 1999): Tampere, Finland, July 15-21, 1999
    [hep-ph/9910339]
  104. K.G. Chetyrkin, R. Harlander, T. Seidensticker, and M. Steinhauser,
    Second order QCD corrections to Γ(t → W b)
    Phys. Rev. D 60 (1999) 114015 [hep-ph/9906273]
  105. R. Harlander and M. Steinhauser,
    Automatic computation of Feynman diagrams
    Prog. Part. Nucl. Phys. 43 (1999) 167-228 [hep-ph/9812357]
  106. K.G. Chetyrkin, R. Harlander, and J.H. Kühn,
    Quark mass effects to σ(e+ e- → hadrons) at O(αs)
    Proceedings, International Europhysics Conference on High energy physics (EPS-HEP 1999): Tampere, Finland, July 15-21, 1999
    [hep-ph/9910345]
  107. R. Harlander,
    Asymptotic expansions: Methods and applications
    Acta Phys. Polon. B 30 (1999) 3443-3462Recent developments in theory of fundamental interactions. Proceedings, 23rd School of Theoretical Physics, Ustron, Poland, September 15-22, 1999
    [hep-ph/9910496]
  108. J.H. Kühn, T. Hahn, and R. Harlander,
    Top production above threshold: Electroweak and QCD corrections combined
    Physics and experiments with future linear e+ e- colliders. Proceedings, 4th Workshop, LCWS'99, Sitges, Spain, April 28-May 5, 1999. Vol. 1: Physics at linear colliders
    [hep-ph/9912262]
  109. R. Harlander,
    Higher order corrections to Z decay
    Acta Phys. Polon. B 29 (1998) 2691-2698Loops and legs in gauge theories. Proceedings, Zeuthen Workshop on Elementary Particle Theory, Rheinsberg, Germany, April 19-24, 1998
    [hep-ph/9806524]
  110. K.G. Chetyrkin, R. Harlander, and M. Steinhauser,
    Singlet polarization functions at O(αs2)
    Phys. Rev. D 58 (1998) 014012 [hep-ph/9801432]
  111. R. Harlander, T. Seidensticker, and M. Steinhauser,
    Corrections of O(ααs) to the decay of the Z boson into bottom quarks
    Phys. Lett. B 426 (1998) 125-132 [hep-ph/9712228]
  112. R. Harlander and M. Steinhauser,
    O(αs2) corrections to top quark production at e+ e- colliders
    Eur. Phys. J. C 2 (1998) 151-158 [hep-ph/9710413]
  113. E. Accomando et al.,
    Physics with e+ e- linear colliders
    Phys. Rept. 299 (1998) 1-78 [hep-ph/9705442]
  114. R. Harlander, M. Jeżabek, J.H. Kühn, and M. Peter,
    Top quark polarization in polarized e+ e- annihilation near threshold
    Z. Phys. C 73 (1997) 477-494 [hep-ph/9604328]
  115. K.G. Chetyrkin, R. Harlander, J.H. Kühn, and M. Steinhauser,
    Mass corrections to the vector current correlator
    Nucl. Phys. B 503 (1997) 339-353 [hep-ph/9704222]
  116. K.G. Chetyrkin, R. Harlander, J.H. Kühn, and M. Steinhauser,
    Automatic computation of three loop two point functions in large momentum expansion
    Nucl. Instrum. Meth. A 389 (1997) 354-356 New computing techniques in physics research V. Proceedings, 5th International Workshop, AIHENP '96, Lausanne, Switzerland, September 2-6, 1996
    [hep-ph/9611354]
  117. R. Harlander and M. Steinhauser,
    Higgs decay to top quarks at O(αs2)
    Phys. Rev. D 56 (1997) 3980-3990 [hep-ph/9704436]
  118. R. Harlander, M. Jeżabek, and J.H. Kühn,
    Higgs effects in top quark pair production
    Acta Phys. Polon. B 27 (1996) 1781-1788 [hep-ph/9506292]
  119. R. Harlander, J.H. Kühn, M. Peter, and M. Jeżabek,
    Top quarks at a polarized linear collider
    e+ e- collisions at TeV energies: The physics potential. Proceedings, Workshop, Annecy, France, February 4, 1995, Gran Sasso, Assergi, Italy, June 2-3, 1995, Hamburg, Germany, August 30-September 1, 1995

  120. M. Jeżabek, R. Harlander, J.H. Kühn, and M. Peter,
    Polarized top quarks
    Physics and experiments with linear colliders. Proceedings, 3rd Workshop, Morioka-Appi, Japan, September 8-12, 1995. Vol. 1, 2
    [hep-ph/9512409]
  121. R. Harlander, M. Jeżabek, J.H. Kühn, and T. Teubner,
    Polarization in top quark pair production near threshold
    Phys. Lett. B 346 (1995) 137-142 [hep-ph/9411395]
  122. R. Harlander, M. Jeżabek, J.H. Kühn, and T. Teubner,
    Polarization in top pair production and decay near threshold
    AIP Conf. Proc. 343 (1995) 675-680 Proceedings, 11th International Symposium on High-energy Spin Physics (SPIN 94): Bloomington, USA, September 15-22, 1994
    [hep-ph/9411371]
  123. R.V. Harlander, J.-P. Martinez,
    The development of computational methods for Feynman diagrams
    The European Physical Journal H 49 4

Robert Harlander: Research Interests -/- Home -/- TTP Karlsruhe -/- CERN Theory -/- HET Brookhaven
last updated on Mar 01, 2024 by RH
All my papers (Robert Harlander)