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1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 | <chapter name="Process Selection">
<h2>Process Selection</h2>
There is no way PYTHIA could contain all processes of interest,
neither in terms of potential physics topics nor in terms of
high-multiplicity final states. What exists is a reasonably
complete setup of all <ei>2 → 1</ei> and <ei>2 → 2</ei>
processes within the Standard Model, plus some examples of
processes beyond that, again for low multiplicities. Combined with
the PYTHIA parton showers, this should be enough to get a flying
start in the study of many physics scenarios.
Other processes could be fed in via the
<aloc href="LesHouchesAccord">Les Houches Accord</aloc>
or be implemented as a
<aloc href="SemiInternalProcesses">Semi-Internal Process</aloc>.
In the latter case the existing processes would act as obvious
templates.
<p/>
By default all processes are switched off. You should switch on
those you want to simulate. This may be done at two (occasionally
three) levels, either for each individual process or for a group of
processes. That is, a process is going to be generated either if its
own flag or its group flag is on. There is no built-in construction
to switch on a group and then switch off a few of its members.
<p/>
Each process is assigned an integer code. This code is not used in
the internal administration of events (so having the same code for
two completely different processes would not be a problem), but only
intended to allow a simpler user separation of different processes.
Also the process name is available, as a string.
<p/>
To ease navigation, the list of processes has been split into several
separate pages, by main topic. The classification is hopefully
intuitive, but by no means unambiguous. For instance, essentially
all processes involve QCD, so the "QCD processes" are the ones that
only involve QCD. (And also that is not completely true, once one
includes all that may happen in multiparton interactions.) On these
separate pages also appear the settings that are completely local
to that particular process class, but not the ones that have a
broader usage.
<h3><aloc href="QCDProcesses">QCD Processes</aloc></h3>
QCD processes fall in two main categories: soft and hard. The soft ones
contain elastic, diffractive and "minimum-bias" events, together
covering the total cross section. Hard processes are the normal
<ei>2 → 2</ei> ones, including charm and bottom production.
<br/>Reserved code range: 101 - 199.
<h3><aloc href="ElectroweakProcesses">Electroweak Processes</aloc></h3>
Prompt-photon, <ei>gamma^*/Z^0</ei> and <ei>W^+-</ei> production,
plus a few processes with <ei>t</ei>-channel boson exchange.
<br/>Reserved code range: 201 - 299.
<h3><aloc href="OniaProcesses">Onia Processes</aloc></h3>
Colour singlet and octet production of charmonium and bottomonium.
<br/>Reserved code range: 401 - 499 for charmonium and
501 - 599 for bottomonium.
<h3><aloc href="TopProcesses">Top Processes</aloc></h3>
Top production, singly or doubly.
<br/>Reserved code range: 601 - 699.
<h3><aloc href="FourthGenerationProcesses">Fourth-Generation
Processes</aloc></h3>
Production of hypothetical fourth-generation fermions.
<br/>Reserved code range: 801 - 899.
<h3><aloc href="HiggsProcesses">Higgs Processes</aloc></h3>
Higgs production, within or beyond the Standard Model.
See section on Left-Right-Symmetry processes for doubly charged Higgs bosons.
<br/>Reserved code range: 901 - 999 for a Standard Model Higgs
and 1001 - 1199 for MSSM Higgs bosons.
<h3><aloc href="SUSYProcesses">SUSY Processes</aloc></h3>
Production of supersymmetric particles, currently barely begun.
<br/>Reserved code range: 1001 - 2999. (Whereof 1001 - 1199
for Higgs bosons; see above.)
<h3><aloc href="NewGaugeBosonProcesses">New-Gauge-Boson
Processes</aloc></h3>
Production of new gauge bosons such as <ei>Z'</ei> and <ei>W'</ei>.
<br/>Reserved code range: 3001 - 3099.
<h3><aloc href="LeftRightSymmetryProcesses">Left-Right-Symmetry
Processes</aloc></h3>
Production of righthanded <ei>Z_R</ei> and <ei>W_R</ei> bosons and of
doubly charged Higgs bosons.
<br/>Reserved code range: 3101 - 3199.
<h3><aloc href="LeptoquarkProcesses">Leptoquark Processes</aloc></h3>
Production of a simple scalar leptoquark state.
<br/>Reserved code range: 3201 - 3299.
<h3><aloc href="CompositenessProcesses">Compositeness Processes</aloc></h3>
Production of excited fermion states and contact-interaction modification
to interactions between fermions (excluding technicolor; see below).
<br/>Reserved code range: 4001 - 4099.
<h3>Technicolor Processes</h3>
Production of technicolor particles and modifications of QCD processes
by technicolor interactions. Does not exist yet.
<br/>Reserved code range: 4101 - 4199.
<h3><aloc href="HiddenValleyProcesses">Hidden Valley Processes</aloc></h3>
A scenario for the pair production of new particles with couplings
under a new gauge group, with invisible gauge bosons. Radiation of
these gauge bosons is included in the standard final-state parton
shower.
<br/>Reserved code range: 4901 - 4999.
<h3><aloc href="ExtraDimensionalProcesses">Extra-Dimensional
Processes</aloc></h3>
A vast area, here represented by the production of a Randall-Sundrum
excited graviton state and a Kaluza-Klein gluon, a Kaluza-Klein tower
of <ei>gamma/Z^0</ei> excitations in one TeV^- sized extra dimension,
several Large Extra Dimension processes, and a few related Unparticle
processes.
<br/>Reserved code range: 5001 - 5099.
</chapter>
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