Three-loop contributions to the \(\rho\) parameter and iterated integrals of modular forms
From MaRDI portal
Publication:2188575
DOI10.1007/JHEP02(2020)050zbMath1435.81232arXiv1912.02747OpenAlexW3099618300MaRDI QIDQ2188575
Samuel Abreu, Robin Marzucca, Matteo Becchetti, Claude Duhr
Publication date: 11 June 2020
Published in: Journal of High Energy Physics (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1912.02747
Strong interaction, including quantum chromodynamics (81V05) Perturbative methods of renormalization applied to problems in quantum field theory (81T15) (2)-body potential quantum scattering theory (81U05)
Related Items (12)
Towards closed strings as single-valued open strings at genus one ⋮ \(\varepsilon\)-factorized differential equations for two-loop non-planar triangle Feynman integrals with elliptic curves ⋮ Feynman integrals in dimensional regularization and extensions of Calabi-Yau motives ⋮ The inverse Mellin transform via analytic continuation ⋮ Modular transformations of elliptic Feynman integrals ⋮ Collider physics at the precision frontier ⋮ Sunrise integrals with two internal masses and pseudo-threshold kinematics in terms of elliptic polylogarithms ⋮ Analytic structure of all loop banana integrals ⋮ Meromorphic modular forms and the three-loop equal-mass banana integral ⋮ A Feynman integral depending on two elliptic curves ⋮ Holonomic Anti-Differentiation and Feynman Amplitudes ⋮ The SAGEX review on scattering amplitudes Chapter 3: Mathematical structures in Feynman integrals
Uses Software
Cites Work
- Unnamed Item
- Differential equations and dispersion relations for Feynman amplitudes. The two-loop massive sunrise and the kite integral
- The elliptic dilogarithm for the sunset graph
- CHAPLIN -- complex harmonic polylogarithms in Fortran
- BOKASUN: A fast and precise numerical program to calculate the master integrals of the two-loop sunrise diagrams
- Space-time dimensionality \(\mathcal D\) as complex variable: calculating loop integrals using dimensional recurrence relation and analytical properties with respect to \(\mathcal D\)
- Elliptic Feynman integrals and pure functions
- All orders structure and efficient computation of linearly reducible elliptic Feynman integrals
- Numerical evaluation of multiple polylogarithms
- Analytic treatment of the two loop equal mass sunrise graph
- Two-loop sunset diagrams with three massive lines
- Multiple polylogarithms, cyclotomy and modular complexes
- On the reduction of generalized polylogarithms to \(\mathrm{Li}_n\) and \(\mathrm{Li}_{2,2}\) and on the evaluation thereof
- Feynman integrals and iterated integrals of modular forms
- Local mirror symmetry and the sunset Feynman integral
- Notes on motivic periods
- Moments of heavy quark correlators with two masses: Exact mass dependence to three loops
- Algorithms and tools for iterated Eisenstein integrals
- The unequal mass sunrise integral expressed through iterated integrals on \(\overline{\mathcal{M}}_{1,3}\)
- A second-order differential equation for the two-loop sunrise graph with arbitrary masses
- Analytic continuation and numerical evaluation of the kite integral and the equal mass sunrise integral
- Schouten identities for Feynman graph amplitudes: The Master Integrals for the two-loop massive sunrise graph
- Elliptic multiple zeta values and one-loop superstring amplitudes
- Numerical implementation of harmonic polylogarithms to weight w = 8
- NEW METHOD OF MASSIVE N-POINT FEYNMAN DIAGRAMS CALCULATION
- The iterated structure of the all-order result for the two-loop sunrise integral
- The two-loop sunrise graph in two space-time dimensions with arbitrary masses in terms of elliptic dilogarithms
- Fourth order spectral functions for the electron propagator
- Volumes of hyperbolic manifolds and mixed Tate motives
- Connection between Feynman integrals having different values of the space-time dimension
- HARMONIC POLYLOGARITHMS
- Iterated elliptic and hypergeometric integrals for Feynman diagrams
- The two-loop sunrise graph with arbitrary masses
- Iterated integrals of modular forms and noncommutative modular symbols
- The two-loop sunrise integral around four space-time dimensions and generalisations of the Clausen and Glaisher functions towards the elliptic case
This page was built for publication: Three-loop contributions to the \(\rho\) parameter and iterated integrals of modular forms
