apfelxx : Object oriented rewriting of the APFEL evolution code ( https://github.com/vbertone/apfelxx )
atompaw : PAW atomic data generator ( http://users.wfu.edu/natalie/papers/pwpaw/man.html )
cernlib : CERN program library for High Energy Physics ( https://cernlib.web.cern.ch/cernlib/ )
collier : A Complex One-Loop LIbrary with Extended Regularizations ( https://collier.hepforge.org/index.html )
feynarts : FeynArts renders Feynman diagrams and generates their topologies. ( https://feynarts.de )
feyncalc : FeynCalc is a Mathematica package for computing Feynman diagrams. ( https://feyncalc.github.io/ )
formcalc : FormCalc can be used for automatic Feynman diagram computation. ( https://feynarts.de/formcalc )
fullprof-bin : Crystallographic tools mainly for Rietveld analysis ( https://www.ill.eu/sites/fullprof/index.html )
genfit : Generic toolkit for track reconstruction in physics experiments ( https://github.com/GenFit/GenFit )
hepunits : units and constants in the HEP system of units ( https://github.com/scikit-hep/hepunits )
hoppet : Higher Order Perturbative Parton Evolution Toolkit ( HOMEPAGE=" )
lhapdf-sets : LHAPDF data grids ( https://lhapdf.hepforge.org/ )
mc-tester : Comparisons of Monte Carlo predictions in High Energy Physics ( http://mc-tester.web.cern.ch/MC-TESTER/ )
mcfm : Monte Carlo for FeMtobarn processes ( https://mcfm.fnal.gov )
oneloop : Library of one-loop scalar functions ( https://bitbucket.org/hameren/oneloop )
openmx : Material eXplorer ( http://www.openmx-square.org/" # no https, SSL invali )
particle : PDG particle data and identification codes ( https://github.com/scikit-hep/particle )
pyhepmc : A Pythonic wrapper for the HepMC3 C++ library. ( https://github.com/scikit-hep/pyhepmc )
pyhf : pure-python fitting/limit-setting/interval estimation HistFactory-style ( HOMEPAGE=" )
pylhe : Lightweight Python interface to read Les Houches Event (LHE) files ( https://github.com/scikit-hep/pylhe )
qcdloop : An object-oriented one-loop scalar Feynman integrals framework ( https://qcdloop.web.cern.ch/qcdloop/ )
qcl : Quantum Computation Language with an emulator of a quantum computer ( http://tph.tuwien.ac.at/~oemer/qcl.html )
qgraf : qgraf generates Feynman diagrams for various types of QFT models ( http://cfif.ist.utl.pt/~paulo/qgraf.html )
scikit-hep-testdata : A package to provide example files for testing and developing packages against. ( https://github.com/scikit-hep/scikit-hep-testdata )
spheno : SPheno stands for S(upersymmetric) Pheno(menology) ( https://spheno.hepforge.org/ )
tauola : Tau decay Monte Carlo generator ( https://tauolapp.web.cern.ch/tauolapp/ )
uproot : ROOT I/O in pure Python and Numpy. ( https://github.com/scikit-hep/uproot )
Pour rajouter une e-build dans l'arbre de portage :
L'ebuild est alors rajouté dans l'arbre de portage.
Vous pouvez aussi utiliser layman : emerge layman puis layman -a science
Pour Paludis utilisez ce rsync : rsync://gentoo.zugaina.org/science-portage
En cas de problèmes : ycarus(-at-)zugaina.org