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Counting loop diagrams: computational complexity of higher-order amplitude evaluation

  • theoretical physics
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Abstract.

We discuss the computational complexity of the perturbative evaluation of scattering amplitudes, both by the Caravaglios-Moretti algorithm and by direct evaluation of the individual diagrams. For a self-interacting scalar theory, we determine the complexity as a function of the number of external legs. We describe a method for obtaining the number of topologically inequivalent Feynman graphs containing closed loops, and apply this to 1- and 2-loop amplitudes. We also compute the number of graphs weighted by their symmetry factors, thus arriving at exact and asymptotic estimates for the average symmetry factor of diagrams. We present results for the asymptotic number of diagrams up to 10 loops, and prove that the average symmetry factor approaches unity as the number of external legs becomes large.

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Authors and Affiliations

  1. HEFIN, University of Nijmegen, Nijmegen, the Netherlands

    E. van Eijk, R. Kleiss & A. Lazopoulos

Authors
  1. E. van Eijk
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  2. R. Kleiss
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  3. A. Lazopoulos
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Corresponding author

Correspondence to E. van Eijk.

Additional information

Received: 2 June 2004, Published online: 23 July 2004

Research supported by the EU contract no. HPMD-CT-2001-00105

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van Eijk, E., Kleiss, R. & Lazopoulos, A. Counting loop diagrams: computational complexity of higher-order amplitude evaluation. Eur. Phys. J. C 36, 459–470 (2004). https://doi.org/10.1140/epjc/s2004-01958-2

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  • DOI: https://doi.org/10.1140/epjc/s2004-01958-2

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