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PYTHIA 8

Welcome to PYTHIA - The Lund Monte Carlo!

PYTHIA 8 is the successor to PYTHIA 6, rewritten from scratch in C++. With the release of PYTHIA 8.1 it now becomes the official "current" PYTHIA version, although PYTHIA 6.4 will be supported in parallel with it for some time to come. Specifically, the new version has not yet been enough tested and tuned for it to have reached the same level of reliability as the older one. This testing will only happen if people begin to work with the program, however, which is why we encourage a gradual transition to the new version, starting now. There are some new physics features in PYTHIA 8.1, that would make use of it more attractive, but also some topics still missing, where 6.4 would have to be used. Further, many obsolete features will not be carried over, so for some backwards compatibility studies again 6.4 would be the choice.

Documentation

On these webpages you will find the up-to-date manual for PYTHIA 8.1. Use the left-hand index to navigate this documentation of program elements, especially of all possible program settings. All parameters are provided with sensible default values, however, so you need only change those of relevance to your particular study, such as choice of beams, processes and phase space cuts. The pages also contain a fairly extensive survey of all methods available to the user, e.g. to study the produced events. What is lacking on these webpages is an overview, on the one hand, and an in-depth physics description, on the other.

The overview can be found in the attached PDF file
A Brief Introduction to PYTHIA 8.1
T. Sjöstrand, S. Mrenna and P. Skands, Comput. Phys. Comm. 178 (2008) 852 [arXiv:0710.3820].
You are strongly recommended to read this summary when you start out to learn how to use PYTHIA 8.1. Note that some details have changed since the 8.100 version described there.

For the physics description we refer to the complete
PYTHIA 6.4 Physics and Manual
T. Sjöstrand, S. Mrenna and P. Skands, JHEP05 (2006) 026,
which in detail describes the physics (largely) implemented also in PYTHIA 8, and also provides a more extensive bibliography than found here.

When you use PYTHIA 8.1, you should therefore cite both, e.g. like
T. Sjöstrand, S. Mrenna and P. Skands, JHEP05 (2006) 026, Comput. Phys. Comm. 178 (2008) 852.

Furthermore, a separate
PYTHIA 8 Worksheet,
also an attached PDF file, offers a practical introduction to using the generator. It has been developed for and used at a few summer schools, with minor variations, but is also suited for self-study.

Authors

Torbjörn Sjöstrand
Department of Theoretical Physics, Lund University, Sölvegatan 14A, SE-223 62 Lund, Sweden
phone: + 46 - 46 - 222 48 16, e-mail: torbjorn@thep.lu.se

Stefan Ask
Department of Physics, University of Cambridge, Cavendish Laboratory, JJ Thomson Ave., Cambridge CB3 0HE, UK
phone: +41 - 22 - 767 6707, e-mail: Stefan.Ask@cern.ch

Richard Corke
Department of Theoretical Physics, Lund University, Sölvegatan 14A, SE-223 62 Lund, Sweden
phone: + 46 - 46 - 222 31 92, e-mail: richard.corke@thep.lu.se

Stephen Mrenna
Computing Division, Simulations Group, Fermi National Accelerator Laboratory, MS 234, Batavia, IL 60510, USA
phone: + 1 - 630 - 840 - 2556, e-mail: mrenna@fnal.gov

Peter Skands
Theoretical Physics, CERN, CH-1211 Geneva 23, Switerland
phone: + 41 - 22 - 767 2447, e-mail: peter.skands@cern.ch

Further contributions

Makefiles, configure scripts and HepMC interface by Mikhail Kirsanov.
Conversion of XML files to PHP ones by Ben Lloyd.
Simple Makefile for Win32/NMAKE by Bertrand Bellenot.
Extended Higgs sector partly implemented by Marc Montull.
Parts of charm and bottom decay tables courtesy DELPHI and LHCb collaborations.
Tunes and comparisons with data, based on Rivet and Professor, by Hendrik Hoeth.
Text and code on the use of ROOT in conjunction with PYTHIA by Rene Brun and Andreas Morsch.
Code and data for MRST/MSTW PDFs by Robert Thorne and Graeme Watt.
Code and data for the CTEQ/CT PDFs by Joey Huston and colleagues.
Help with implementing new proton PDFs by Tomas Kasemets.
Code and data for Pomeron PDFs by H1 collaboration and especially Paul Newman.
Help with implementing new Pomeron fluxes and PDFs by Sparsh Navin.
The new Hidden Valley code developed together with Lisa Carloni.
Code for a Kaluza-Klein electroweak gauge boson provided by Noam Hod and Mark Sutton.
Code for equivalent photon flux around an unresolved proton by Oystein Alvestad.
Part of the SUSY code by Nishita Desai.
Note: in several cases modifications have been made to the original code, in order to integrate it with PYTHIA. In these cases the blame for any mistakes has to rest with the regular authors.

Licence

PYTHIA 8 is licensed under the GNU General Public Licence version 2.
Please respect the MCnet Guidelines for Event Generator Authors and Users.