On-the-fly reduction of open loops

Building on the open-loop algorithm we introduce a new method for the automated construction of one-loop amplitudes and their reduction to scalar integrals. The key idea is that the factorisation of one-loop integrands in a product of loop segments makes it possible to perform various operations on-...

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Published inThe European physical journal. C, Particles and fields Vol. 78; no. 1; pp. 1 - 35
Main Authors Buccioni, Federico, Pozzorini, Stefano, Zoller, Max
Format Journal Article
LanguageEnglish
Published Berlin/Heidelberg Springer Berlin Heidelberg 01.01.2018
Springer
Springer Nature B.V
SpringerOpen
Subjects
Algorithms
Astronomy
Astrophysics and Cosmology
Construction methods
Elementary Particles
Hadrons
Heavy Ions
Helicity
Mathematical analysis
Measurement Science and Instrumentation
Nuclear Energy
Nuclear Physics
Numerical stability
Physics
Physics and Astronomy
Quantum Field Theories
Quantum Field Theory
Reduction
Regular Article - Theoretical Physics
Singularities
String Theory
Online AccessGet full text
ISSN1434-6044
1434-6052
1434-6052
DOI10.1140/epjc/s10052-018-5562-1

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Abstract Building on the open-loop algorithm we introduce a new method for the automated construction of one-loop amplitudes and their reduction to scalar integrals. The key idea is that the factorisation of one-loop integrands in a product of loop segments makes it possible to perform various operations on-the-fly while constructing the integrand. Reducing the integrand on-the-fly, after each segment multiplication, the construction of loop diagrams and their reduction are unified in a single numerical recursion. In this way we entirely avoid objects with high tensor rank, thereby reducing the complexity of the calculations in a drastic way. Thanks to the on-the-fly approach, which is applied also to helicity summation and for the merging of different diagrams, the speed of the original open-loop algorithm can be further augmented in a very significant way. Moreover, addressing spurious singularities of the employed reduction identities by means of simple expansions in rank-two Gram determinants, we achieve a remarkably high level of numerical stability. These features of the new algorithm, which will be made publicly available in a forthcoming release of the OpenLoops program, are particularly attractive for NLO multi-leg and NNLO real–virtual calculations.
AbstractList Abstract Building on the open-loop algorithm we introduce a new method for the automated construction of one-loop amplitudes and their reduction to scalar integrals. The key idea is that the factorisation of one-loop integrands in a product of loop segments makes it possible to perform various operations on-the-fly while constructing the integrand. Reducing the integrand on-the-fly, after each segment multiplication, the construction of loop diagrams and their reduction are unified in a single numerical recursion. In this way we entirely avoid objects with high tensor rank, thereby reducing the complexity of the calculations in a drastic way. Thanks to the on-the-fly approach, which is applied also to helicity summation and for the merging of different diagrams, the speed of the original open-loop algorithm can be further augmented in a very significant way. Moreover, addressing spurious singularities of the employed reduction identities by means of simple expansions in rank-two Gram determinants, we achieve a remarkably high level of numerical stability. These features of the new algorithm, which will be made publicly available in a forthcoming release of the OpenLoops program, are particularly attractive for NLO multi-leg and NNLO real–virtual calculations.
Building on the open-loop algorithm we introduce a new method for the automated construction of one-loop amplitudes and their reduction to scalar integrals. The key idea is that the factorisation of one-loop integrands in a product of loop segments makes it possible to perform various operations on-the-fly while constructing the integrand. Reducing the integrand on-the-fly, after each segment multiplication, the construction of loop diagrams and their reduction are unified in a single numerical recursion. In this way we entirely avoid objects with high tensor rank, thereby reducing the complexity of the calculations in a drastic way. Thanks to the on-the-fly approach, which is applied also to helicity summation and for the merging of different diagrams, the speed of the original open-loop algorithm can be further augmented in a very significant way. Moreover, addressing spurious singularities of the employed reduction identities by means of simple expansions in rank-two Gram determinants, we achieve a remarkably high level of numerical stability. These features of the new algorithm, which will be made publicly available in a forthcoming release of the OpenLoops program, are particularly attractive for NLO multi-leg and NNLO real–virtual calculations.
Building on the open-loop algorithm we introduce a new method for the automated construction of one-loop amplitudes and their reduction to scalar integrals. The key idea is that the factorisation of one-loop integrands in a product of loop segments makes it possible to perform various operations on-the-fly while constructing the integrand. Reducing the integrand on-the-fly, after each segment multiplication, the construction of loop diagrams and their reduction are unified in a single numerical recursion. In this way we entirely avoid objects with high tensor rank, thereby reducing the complexity of the calculations in a drastic way. Thanks to the on-the-fly approach, which is applied also to helicity summation and for the merging of different diagrams, the speed of the original open-loop algorithm can be further augmented in a very significant way. Moreover, addressing spurious singularities of the employed reduction identities by means of simple expansions in rank-two Gram determinants, we achieve a remarkably high level of numerical stability. These features of the new algorithm, which will be made publicly available in a forthcoming release of the OpenLoops program, are particularly attractive for NLO multi-leg and NNLO real–virtual calculations.
ArticleNumber 70
Audience Academic
Author Zoller, Max
Buccioni, Federico
Pozzorini, Stefano
Author_xml – sequence: 1
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  surname: Buccioni
  fullname: Buccioni, Federico
  organization: Physik-Institut, Universität Zürich
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  givenname: Stefano
  surname: Pozzorini
  fullname: Pozzorini, Stefano
  organization: Physik-Institut, Universität Zürich
– sequence: 3
  givenname: Max
  surname: Zoller
  fullname: Zoller, Max
  email: zoller@physik.uzh.ch
  organization: Physik-Institut, Universität Zürich
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Snippet Building on the open-loop algorithm we introduce a new method for the automated construction of one-loop amplitudes and their reduction to scalar integrals....
Abstract Building on the open-loop algorithm we introduce a new method for the automated construction of one-loop amplitudes and their reduction to scalar...
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SubjectTerms Algorithms
Astronomy
Astrophysics and Cosmology
Construction methods
Elementary Particles
Hadrons
Heavy Ions
Helicity
Mathematical analysis
Measurement Science and Instrumentation
Nuclear Energy
Nuclear Physics
Numerical stability
Physics
Physics and Astronomy
Quantum Field Theories
Quantum Field Theory
Reduction
Regular Article - Theoretical Physics
Singularities
String Theory
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Title On-the-fly reduction of open loops
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