Lepton

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Leptons are a family of fundamental subatomic particles, comprising the electron, the muon, and the tauon (or tau particle), as well as their associated neutrinos (electron neutrino, muon neutrino, and tau neutrino). Leptons are spin ¹⁄₂ particles, and as such are fermions. Leptons do not strongly interact, in contrast to the quarks.

1 Properties of leptons
2 Table of the leptons
3 Etymology
4 See also
5 References
6 External links

[edit] Properties of leptons

There are three flavours of lepton, electronic leptons (electron, electron neutrino), muonic (muon, muon neutrino), and tauonic (tauon, tau neutrino). Each flavour pair forms a weak isospin doublet. Each doublet comprises one massive particle (which is often called "electron-like lepton") and one massless particle (neutrino).

Electron-like leptons have a charge of −1 e, while neutrinos are neutral particles (with a charge of 0 e). Since leptons are spin ¹⁄₂ particles, they have two possible helicities, although all observed neutrinos have been left-handed.

All leptons have corresponding antiparticles. It is possible that neutrinos are their own antiparticles.

Particle	Antiparticle
electron	antielectron (or positron)
muon	antimuon
tauon (or tau particle)	antitauon
electron neutrino (electrino)	electron antineutrino
muon neutrino (or mutrino)	muon antineutrino
tau neutrino (or tautrino)	tau antineutrino (or tautrino)

The masses of the leptons also obey a simple relation, known as the Koide formula, but at present this relationship cannot be explained.

When particles interact, generally the number of leptons of the same type (electrons and electron neutrinos, muons and muon neutrinos, tau leptons and tau neutrinos) remains the same. This principle is known as conservation of lepton number. Conservation of the number of leptons of different flavors (for example, electron number or muon number) may sometimes be violated (as in neutrino oscillation). A much stronger conservation law is the total number of leptons of all flavors, which is violated by a tiny amount in the Standard Model by the so-called chiral anomaly.

The couplings of the leptons to gauge bosons are flavor-independent. This property is called lepton universality and has been tested in measurements of the tau and muon lifetimes and of Z-boson partial decay widths, particularly at the Stanford Linear Collider and Large Electron-Positron Collider (LEP) experiments.

[edit] Table of the leptons

Name	Symbol	Electric charge (e)	Mass (MeV/c²)	Name	Symbol	Electric charge (e)	Mass (MeV/c²)
Charged lepton / antiparticle				Neutrino / antineutrino
Electron / Positron	e⁻/e⁺	−1 / +1	0.511	Electron neutrino / Electron antineutrino	νe/νe	0	< 0.0000022 ^[1]
Muon	μ⁻/μ⁺	−1 / +1	105.7	Muon neutrino / Muon antineutrino	νμ/νμ	0	< 0.17 ^[1]
Tau lepton	τ⁻/τ⁺	−1 / +1	1777	Tau neutrino / Tau antineutrino	ντ/ντ	0	< 15.5 ^[1]

Note that the neutrino masses are known to be non-zero because of neutrino oscillation, but their masses are sufficiently light that they have not been measured directly as of 2008. However, the differences of the mass squares between the neutrinos have been measured (indirectly based on the oscillation periods), which are estimated to be $\Delta m^2_{12} = 80\mbox{ meV}^2$ and $\Delta m^2_{23} \approx \Delta m^2_{13} = 2400\mbox{ meV}^2$ . This leads to the following conclusions:

νμ and ντ are lighter than 2.2 eV (as νe is and the mass differences between the neutrinos are of order of millielectronvolts)
one (or more) of the neutrinos is heavier than 0.040 eV
two (or three) of the neutrinos are heavier than 0.008 eV

[edit] Etymology

According to the Oxford English Dictionary, the name "lepton" (from Greek leptos meaning 'thin') was first used by physicist Léon Rosenfeld in 1948:

Following a suggestion of Prof. C. Møller, I adopt — as a pendant to "nucleon" — the denomination "lepton" (from λεπτός, small, thin, delicate) to denote a particle of small mass.

– ^[2]

The etymology incorrectly implies that all the leptons are light, since they were named before the discovery in the 1970s of the heavy tau lepton, which is nearly twice the mass of a proton.

[edit] See also

List of particles

[edit] References

^ ^a ^b ^c "Laboratory measurements and limits for neutrino properties".
^ Rosenfeld, Léon (1948). Nuclear Forces. Interscience Publishers, New York, xvii.

[edit] External links

Wikimedia Commons has media related to:

Leptons

Look up lepton in
Wiktionary, the free dictionary.

The Particle Data Group who compile authoritative information on particle properties.
Leptons from the Georgia State University is a small summary of the lepton.

v • d • e Particles in physics

Elementary particles	Fermions: Quarks: u · d · c · s · t · b • Leptons: e⁻ · e⁺ · μ⁻ · μ⁺ · τ⁻ · τ⁺ · νe · νμ · ντ · νe · νμ · ντ Bosons: Gauge bosons: γ · g · W^± · Z Other: Ghosts

Composite particles	Hadrons: Baryons/Hyperons/Nucleons: p⁺ · n⁰ · Δ · Λ · Σ · Ξ · Ω • Mesons/Quarkonia: π · K · ρ · J/ψ · Υ Other: Atomic nuclei • Atoms • Exotic atoms: Positronium · Muonium · Onia • Molecules

Hypothetical elementary particles	Superpartners: Axino · Chargino · Gaugino · Gluino · Gravitino · Higgsino · Neutralino · Sfermion Other: A⁰ · Dilaton · G · H⁰ · J · Tachyon · X · Y · W' · Z' · Sterile neutrino

Hypothetical composite particles	Exotic hadrons: Exotic baryons: Dibaryon · Pentaquark • Exotic mesons: Glueball · Tetraquark Other: Mesonic molecule · Pomeron

Quasiparticles	Davydov soliton · Exciton · Magnon · Phonon · Plasmon · Polariton · Polaron · Roton

Lists	List of particles · List of quasiparticles · List of baryons · List of mesons · Timeline of particle discoveries

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