Wolfram Language & System 10.0 (2014)|Legacy Documentation
This is documentation for an earlier version of the Wolfram Language.View current documentation (Version 11.2)
gives the specified property for a subatomic particle or family of particles with the specified name.
gives the specified property for a version of the particle with charge q.
- Typical forms of names for long-lived particles include , , , , , and .
- Generic names such as can be used to refer to charge multiplets. is equivalent to .
- Excited-state hadrons are referred to by names such as .
- Quarks are referred to as , , , etc. Gauge bosons are , , , etc.
- Distinct antiparticles are referred to by names that end in Bar, such as .
- ParticleData and ParticleData[All] give a list of all known particles in order of increasing mass.
- Basic properties include:
"Charge" charge "HalfLife" half‐life in seconds "Lifetime" lifetime in seconds "Mass" mass in MeV/ "QuarkContent" list of constituent quarks "Symbol" standard particle symbol "Width" decay width in MeV
- Quantum numbers include:
"BaryonNumber" baryon number "Bottomness" bottom number (b quark content) "Charm" charm (c quark content) "CParity" charge conjugation parity "GParity" isospin parity "Hypercharge" hypercharge "Isospin" isospin "IsospinProjection" isospin projection "LeptonNumber" lepton number "Parity" spin parity "Spin" spin angular momentum "Strangeness" strangeness "Topness" top number (t quark content)
- Properties for long-lived particles include:
"GFactor" g factor "MeanSquareChargeRadius" mean square charge radius in fm
- Related particle properties include:
"Antiparticle" antiparticle of the given particle "ChargeStates" list of charges of particles in the same isospin multiplet "Excitations" particles with the same internal quantum numbers "IsospinMultiplet" list of particles in the same isospin multiplet
- Decay-related properties include:
"DecayModes" list of observed decay modes and branching ratios "DecayType" dominant decay type (, , ...) "FullDecayModes" list of all decay modes, including unobserved ones "UnobservedDecayModes" list of unobserved decay modes and upper bounds
- Each decay mode is by default specified in the form where the are decay products, and b is the branching ratio.
- In , branching ratios of unobserved modes are given as with a precision corresponding to the measured upper bound.
- Names‐related properties include:
"FullSymbol" standard particle symbol, including approximate mass "GenericFullSymbol" standard particle symbol, with mass but not charge state "GenericSymbol" standard particle symbol, excluding charge state "PDGNumber" PDG Monte Carlo particle number "StandardName" standard Wolfram Language name "Symbol" standard particle symbol
- ParticleData["class"] gives a list of particles in the specified class. ParticleData[name,"class"] gives True or False depending on whether the particle corresponding to name is in the specified class.
- ParticleData["Classes"] gives a list of names of classes.
- Basic classes of particles include: , , , , , , , (stable for seconds), , .
- Specific classes of particles include: , , (meson with nonzero strangeness but zero charm, etc.), , , , , , , , etc.
- ParticleData[name,"property","ann"] gives various annotations associated with a property. Typical annotations include:
"Description" short textual description of the property "Interval" uncertainty range given by Interval[…] "LongDescription" longer textual description of the property "Note" additional information about the property "Units" units in which the value is given "UnitsName" English name for the units used "UnitsNotation" notation for the units used "UnitsStandardName" Wolfram Language standard name for the units used "Value" property value (default if no annotation is specified) "ValueInterval" property value together with uncertainty range
Introduced in 2007
(6.0)| Updated in 2014