Bootstrapping the relativistic two-body problem
From MaRDI portal
Publication:6074118
DOI10.1007/jhep08(2023)109arXiv2304.01275OpenAlexW4386001238MaRDI QIDQ6074118
Rafael A. Porto, Christoph Dlapa, Gregor Kälin, Zhengwen Liu
Publication date: 12 October 2023
Published in: Journal of High Energy Physics (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/2304.01275
Related Items
Classical observables from the exponential representation of the gravitational S-matrix, Wave scattering event shapes at high energies, The relation between KMOC and worldline formalisms for classical gravity, Poincaré invariance of spinning binary dynamics in the post-Minkowskian Hamiltonian approach, Radiation-reaction in the effective field theory approach to post-Minkowskian dynamics
Cites Work
- Unnamed Item
- The effective field theorist's approach to gravitational dynamics
- Space-time dimensionality \(\mathcal D\) as complex variable: calculating loop integrals using dimensional recurrence relation and analytical properties with respect to \(\mathcal D\)
- Transforming differential equations of multi-loop Feynman integrals into canonical form
- Analytic tools for Feynman integrals
- Hypexp, a Mathematica package for expanding hypergeometric functions around integer-valued parameters
- Hypexp 2, expanding hypergeometric functions about half-integer parameters
- Progress in effective field theory approach to the binary inspiral problem
- Testing binary dynamics in gravity at the sixth post-Newtonian level
- How to choose master integrals
- Classical gravitational scattering from a gauge-invariant double copy
- Radiative classical gravitational observables at \(\mathcal{O} (G^3)\) from scattering amplitudes
- Scattering amplitudes over finite fields and multivariate functional reconstruction
- Subleading Regge limit from a soft anomalous dimension
- Feynman integrals and iterated integrals of modular forms
- Introducing SummerTime: a package for high-precision computation of sums appearing in DRA method
- FIESTA4: optimized Feynman integral calculations with GPU support
- Bootstrapping the QCD soft anomalous dimension
- Amplitudes, observables, and classical scattering
- Feynman integrals and intersection theory
- \texttt{epsilon}: a tool to find a canonical basis of master integrals
- Complete integration-by-parts reductions of the non-planar hexagon-box via module intersections
- The \(\varepsilon\)-form of the differential equations for Feynman integrals in the elliptic case
- The amplitude for classical gravitational scattering at third post-Minkowskian order
- The eikonal approach to gravitational scattering and radiation at \(\mathcal{O} (G^3)\)
- Classical black hole scattering from a worldline quantum field theory
- Decomposition of Feynman integrals by multivariate intersection numbers
- Radiated momentum in the post-Minkowskian worldline approach via reverse unitarity
- SUSY in the sky with gravitons
- Angular momentum loss in gravitational scattering, radiation reaction, and the Bondi gauge ambiguity
- From boundary data to bound states. III: Radiative effects
- Kira -- a Feynman integral reduction program
- The eikonal operator at arbitrary velocities. I: The soft-radiation limit
- The fifth-order post-Newtonian Hamiltonian dynamics of two-body systems from an effective field theory approach
- From boundary data to bound states
- Integration-by-parts reductions of Feynman integrals using singular and GPI-space
- From boundary data to bound states. II: Scattering angle to dynamical invariants (with twist)
- From infinity to four dimensions: higher residue pairings and Feynman integrals
- A tale of two exponentiations in \(\mathcal{N} = 8\) supergravity at subleading level
- The fifth-order post-newtonian Hamiltonian dynamics of two-body systems from an effective field theory approach: potential contributions
- Radiation reaction from soft theorems
- The 6th post-Newtonian potential terms at \(O( G_N^4)\)
- Heavy black hole effective theory
- Observables and amplitudes for spinning particles and black holes
- Decomposition of Feynman integrals on the maximal cut by intersection numbers
- Scattering of spinning black holes from exponentiated soft factors
- Maximal cuts and differential equations for Feynman integrals. An application to the three-loop massive banana graph
- Classical space-times from the S-matrix
- Asymptotic simplification of self-adjoint differential equations with a parameter
- A novel approach to integration by parts reduction
- Reducing differential equations for multiloop master integrals
- Extremal black hole scattering at \(\mathcal{O} (G^3)\): graviton dominance, eikonal exponentiation, and differential equations
- Classical gravitational self-energy from double copy
- Tidal effects in quantum field theory
- Dynamics of binary systems to fourth post-Minkowskian order from the effective field theory approach
- Macaulay matrix for Feynman integrals: linear relations and intersection numbers
- All things retarded: radiation-reaction in worldline quantum field theory
- Radiation-reaction in the effective field theory approach to post-Minkowskian dynamics
- FIRE6: Feynman integral reduction with modular arithmetic
- Reconstructing rational functions with \texttt{FireFly}
- FIESTA5: numerical high-performance Feynman integral evaluation
- HIGH-PRECISION CALCULATION OF MULTILOOP FEYNMAN INTEGRALS BY DIFFERENCE EQUATIONS
- Parallel integer relation detection: Techniques and applications
- Mathematical Aspects of Scattering Amplitudes
- The tune of love and thenature(ness)of spacetime
- Gravitational radiation from massless particle collisions
- Next-to-leading-order spin–orbit effects in the motion of inspiralling compact binaries
- INTRODUCTORY LECTURES ON THE EFFECTIVE ONE BODY FORMALISM
- Iterated path integrals
- Volumes of hyperbolic manifolds and mixed Tate motives
- Connection between Feynman integrals having different values of the space-time dimension
- Laser interferometer space antenna dynamics and controls model
- The quadrupole moment of compact binaries to the fourth post-Newtonian order: I. Non-locality in time and infra-red divergencies
- The quadrupole moment of compact binaries to the fourth post-Newtonian order: II. Dimensional regularization and renormalization
- Aspects of Scattering Amplitudes and Moduli Space Localization
- The mass quadrupole moment of compact binary systems at the fourth post-Newtonian order
- High-Order Post-Newtonian Contributions to Gravitational Self-force Effects in Black Hole Spacetimes
- Effective field theory methods to model compact binaries
- Singularities and Discontinuities of Feynman Amplitudes
- Gravitational radiation from post-Newtonian sources and inspiralling compact binaries
- The ice cone family and iterated integrals for Calabi-Yau varieties
- Machine learning post-Minkowskian integrals
- Gravitational quadratic-in-spin Hamiltonian at NNNLO in the post-Newtonian framework
- \texttt{Libra}: a package for transformation of differential systems for multiloop integrals
- \(\mathrm{N^3LO}\) spin-orbit interaction via the EFT of spinning gravitating objects
- Bananas of equal mass: any loop, any order in the dimensional regularisation parameter
- One-loop gravitational bremsstrahlung and waveforms from a heavy-mass effective field theory
- Intersection numbers from higher-order partial differential equations
- Algorithmic transformation of multi-loop master integrals to a canonical basis with \textit{CANONICA}
- Numerical evaluation of iterated integrals related to elliptic Feynman integrals
- Integral reduction with Kira 2.0 and finite field methods
- Gravitational spin-orbit Hamiltonian at NNNLO in the post-Newtonian framework
- Interpolation of dense and sparse rational functions and other improvements in \texttt{FireFly}
- DiffExp, a Mathematica package for computing Feynman integrals in terms of one-dimensional series expansions
- Feynman integral reduction using Gröbner bases
