Mathematica package for algebraic calculations in elementary particle physics.

Plsql Database数据库

缓存cache服务器

Numerical Effective Field Theory for Quantum Materials

FeynHelpers is a collection of intefaces that allow you to use other HEP-related tools from your FeynCalc session

Exact diagonalization for finite quantum systems

Codes for supersymmetric lattice gauge theories

PyR@TE 3

Continuous normalizing flow for lattice quantum field theory

Python package for computing indirect detection constraints on sub-GeV dark matter.

Calculate allowed interactions in QED

Lorentz Invariant Phase Space

A FORM program for the integration of four-loop massless propagator diagrams.

Code for Higgs--Yukawa lattice field theories with SO(4) global symmetry

DGApy is a python toolbox for the Matsubara Green's function formalism of correlated electrons on a lattice.

Computing string tensions of confining strings in compactified supersymmetric Yang-Mills Theory. Senior thesis project.

OpenParticle

Lattice 2d phi^4 calculations accelerated by cluster updates of the embedded Ising variables

A Python implementation of an algorithm to obtain a phase diagram of two-dimensional interacting lattice bosons based on cluster meanfield theory in physics.

Effective field theory approach to the electron liquid problem

A post-symbolic physics framework modeling intelligence, collapse, and emergence through entropy flow.

A collection of notebooks made with Mathematica tensor algebra add-on xAct.

A Physics-Informed Neural Network (PINN) pipeline that demonstrates the Dark Energy inverse problem and simulates the Quantum Vacuum Catastrophe.

Latex sources for course notes for 2018 UofT Quantum Field Theory.

FORM syntax highlighting for GtkSourceView, in particular GNOME editor

Convolution statistics for cosmic string signal extraction in simulated primordial noise with 21cm cosmology.

MILC-based code for nHYP-smeared staggered fermions and more

Search for non-trivial elements of the kernel of the Burau representation of the four-strand braid group.

Geometric Information Field Theory. 33 SM predictions from pure topology. 0.24% mean deviation. Zero free parameters. open source, Lean 4 verified, falsifiable.

Compilation of Monte Carlo and gauge-fixing code for lattice gauge theories with tools for the ghost propagator and the derivatives of the Faddeev-Popov matrix. Also contains utilities for studying centre-vortices and instanton backgrounds. (serial non-optimized code)