4.6.9. pdg - access particle definitions¶
This module helps to access particle definitions. When the software is loaded a
list of known particles is read from the EvtGen particle definition file
framework/particledb/data/evt.pdl
. This file contains all well-known
standard-model particles and their properties: mass, width or lifetime, charge,
spin.
…
This module allows to easily access this information (see get
) or if necessary
add new particles using add_particle
and even replace the whole particle
definition list using load
.
It also provides simple getters to convert PDG codes into particle names and
vice versa for use with modules which require a list of PDG codes for the
particles to generate. See from_name
, from_names
, to_name
and to_names
- pdg.add_particle(name, pdgCode, mass, width, charge, spin, max_width=None, lifetime=0, pythiaID=0)[source]¶
Add a new particle to the list of known particles.
The name cannot contain any whitespace character.
- Parameters
name (str) – name of the particle
pdgCode (int) – pdg code identifiert for the particle
mass (float) – mass of the particle in GeV
width (float) – width of the particle in GeV
charge (float) – charge of the particle in e
sping (float) – spin of the particle
max_width (float) – max width, if omitted 3*width will be used
lifetime (float) – lifetime in ns, should be 0 as geant4 cannot handle it correctly otherwise
pythiaID (int) – pythiaID of the particle (if any), if omitted 0 will be used
- pdg.from_name(name)[source]¶
Function to return pdg code for the given particle name.
>>> pdg.from_name("pi+") 211
- pdg.from_names(names)[source]¶
for a list/tuple of particle names, return list of pdg codes.
>>> pdg.from_names(["e+","e-","gamma"]) [-11, 11, 22]
- pdg.get(name)[source]¶
Function to return particle information (TParticlePDG) from ROOT Database.
‘name’ can be either the name of the particle, or a pdg code. Will throw an LookupError of no such particle exists.
- pdg.search(name=None, min_mass=None, max_mass=None, name_regex=False, include_width=False)[source]¶
Search for a particles by name or mass or both.
This function allows to search for particle by name or mass and will return a list of all particles which match the given criteria.
By default all searches for the name are case insensitive but if
name
starts with “~” the search will be case sensitive. The “~” will not be part of the search.If
name_regex=True
the name will be interpreted as a pythonregular expression
and the function will return all particles whose names match the expression. Ifname_regex=False
the function will return a list of all particles containing the given pattern as substring ignoring case with two special cases:if
name
begins with “^”, only particles beginning with the pattern will be searched. The “^” will not be part of the search.if
name
ends with “$” the pattern will only be matched to the end of the particle name. The “$” will not be part of the search.
If
include_width=True
the search will include all particles if their (mass ± width) is within the given limit. Ifinclude_width
is a positive number then the particle will be returned if \(m ± n*\Gamma\) is within the required range where n is the value ofinclude_width
and \(\Gamma\) the width of the particle.Examples
Return a list of all particles
>>> search()
Search for all particles containing a “pi” somewhere in the name and ignore the case
>>> search("pi")
Search for all particles beginning with K or k
>>> search("^K")
Search for all particles ending with “+” and having a maximal mass of 3 GeV:
>>> search("+$", max_mass=3.0)
Search for all particles which contain a capital D and have a minimal mass of 1 GeV
>>> search("~D", min_mass=1.0)
Search for all partiles which contain a set of parenthesis containing a number
>>> search(r".*\(\d*\).*", name_regex=True)
Search all particles whose mass ± width covers 1 to 1.2 GeV
>>> search(min_mass=1.0, max_mass=1.2, include_width=True)
Search all particles whose mass ± 3*width touches 1 GeV
>>> search(min_mass=1.0, max_mass=1.0, include_width=3)
- Parameters
name (str) – Search pattern which will either be matched as a substring or as regular expression if
name_regex=True
min_mass (float) – minimal mass for all returned particles or None for no limit
max_mass (float) – maximal mass for all returned particles or None for no limit
name_regex (bool) – if True then
name
will be treated as a regular expressioninclude_width (float or bool) – if True or >0 include the particles if (mass ± include_width*width) falls within the mass limits