Add to ORKGWe sketch the architecture of O'Mega, a new optimizing compiler for tree amplitudes in quantum field theory, and briefly describe its usage. O'Mega generates the most efficient code currently available for scattering amplitudes for many polarized particles in the Standard Model and its extensions
Scattering amplitudes in quantum field theory can be described as the probability of a scattering pr...
A method to efficiently compute, in a automatic way, helicity amplitudes for arbitrary scattering pr...
We study matrix elements of Fourier-transformed straight infinite Wilson lines as a way to calculate...
I describe the optimizing matrix element generator O'Mega and Wolfgang Kilian's event generator gene...
State-of-the-art algorithms generate scattering amplitudes for high-energy physics at leading order ...
We present a new tree-level matrix element generator, based on the color dressed Berends-Giele recur...
Over the past two years, the use of on-shell techniques has deepened our understanding of the S-matr...
Recently we introduced the chirality-flow formalism, a method which builds on the spinor-helicity fo...
A simple algorithm is presented to decompose any 1-loop amplitude for scattering processes of the cl...
In this work we discuss both theoretical tools to verify gauge invariance in numerical calculations ...
We present the building blocks that can be combined to produce tree-level S-matrix elements of a var...
Over the past two years, the use of on-shell techniques has deepened our understanding of the S-matr...
We introduce a new technique to generate scattering amplitudes at one loop. Traditional tree algorit...
The standard calculation of scattering amplitudes in quantum field theory is carried out using a per...
We apply the framework of block-encodings, introduced by Low and Chuang (under the name standard-for...
Scattering amplitudes in quantum field theory can be described as the probability of a scattering pr...
A method to efficiently compute, in a automatic way, helicity amplitudes for arbitrary scattering pr...
We study matrix elements of Fourier-transformed straight infinite Wilson lines as a way to calculate...
I describe the optimizing matrix element generator O'Mega and Wolfgang Kilian's event generator gene...
State-of-the-art algorithms generate scattering amplitudes for high-energy physics at leading order ...
We present a new tree-level matrix element generator, based on the color dressed Berends-Giele recur...
Over the past two years, the use of on-shell techniques has deepened our understanding of the S-matr...
Recently we introduced the chirality-flow formalism, a method which builds on the spinor-helicity fo...
A simple algorithm is presented to decompose any 1-loop amplitude for scattering processes of the cl...
In this work we discuss both theoretical tools to verify gauge invariance in numerical calculations ...
We present the building blocks that can be combined to produce tree-level S-matrix elements of a var...
Over the past two years, the use of on-shell techniques has deepened our understanding of the S-matr...
We introduce a new technique to generate scattering amplitudes at one loop. Traditional tree algorit...
The standard calculation of scattering amplitudes in quantum field theory is carried out using a per...
We apply the framework of block-encodings, introduced by Low and Chuang (under the name standard-for...
Scattering amplitudes in quantum field theory can be described as the probability of a scattering pr...
A method to efficiently compute, in a automatic way, helicity amplitudes for arbitrary scattering pr...
We study matrix elements of Fourier-transformed straight infinite Wilson lines as a way to calculate...