Lepton number

In high energy physics, the lepton number is the number of leptons minus the number of antileptons.

In equation form,

:: $L = n_{ell} - n_{overline{ell$

so all leptons have assigned a value of +1, antileptons −1, and non-leptonic particles 0. Lepton number (sometimes also called lepton charge) is an additive quantum number, which means that its sum is preserved in interactions (as opposed to multiplicative quantum numbers such as parity, where the product is preserved instead).

Beside the leptonic number, leptonic family numbers are also defined:
* the electronic number $L_e$ for the electron and the electronic neutrino;
* the muonic number $L_{mu}$ for the muon and the muonic neutrino;
* the tauonic number $L_{ au}$ for the tauon and the tauonic neutrino;with the same assigning scheme as the leptonic number: +1 for particles of the corresponding family, −1 for the antiparticles, and 0 for leptons of other families or non-leptonic particles.

Conservation laws for leptonic numbers

Many models, including the Standard Model of particle physics rely on lepton number conservation: the lepton number stays the same through an interaction. For example, in the beta decay:

: $egin{matrix} & n &
ightarrow & p & + & e^{-} & + & {overline{
u_e \L: & 0 & = & 0 & + & 1 & - & 1 end{matrix}$ The lepton number before the reaction is 0 (the neutron, "n", is a baryon and therefore there are no leptons before), while the lepton number after the reaction is 0 for the proton +1 for the electron (a lepton) −1 for the antineutrino (an antilepton). Thus the lepton number is zero after the decay, and so is conserved.

The lepton family numbers arise from the fact that lepton number is "usually" conserved in each leptonic family. For example, almost 100% of the time the muon decays as:

: $egin{matrix} & mu &
ightarrow & e^{-} & + & {overline{
u_e & + &
u_{mu} \L: & 1 & = & 1 & - & 1 & + & 1 \L_e: & 0 & = & 1 & - & 1 & + & 0 \L_{mu}: & 1 & = & 0 & + & 0 & + & 1 end{matrix}$

thus preserving the electronic and muonic numbers. This means that a lepton family number conservation law exist for each one of $L_e$ , $L_{mu}$ and $L_{ au}$ .

Violations of the lepton number conservation laws

In the Standard Model, leptonic family number (LF) would be preserved if neutrinos were massless. Since neutrinos do have a tiny nonzero mass, neutrino oscillation has been observed, and conservation laws for LF are therefore only approximate. This means the conservation laws are violated, although because of the smallness of the neutrino mass they still hold to a very large degree for interactions containing charged leptons. However, the lepton number conservation law must still hold (under the Standard Model). Thus, it is possible to see rare muon decays such as:

: $egin{matrix} & mu &
ightarrow & e^{-} & + &
u_e & + & overline{
u}_{mu} \L: & 1 & = & 1 & + & 1 & - & 1 \L_e: & 0 &
e & 1 & + & 1 & + & 0 \L_{mu}: & 1 &
e & 0 & + & 0 & - & 1 end{matrix}$

Because the lepton number conservation law in fact is violated by chiral anomalies, there are problems applying this symmetry universally over all energy scales. However, the quantum number B−L is much more likely to work and is seen in different models such as the Pati-Salam model.

ee also

* leptons
* baryon number
* B−L

References

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lepton number — Physics. in a process involving elementary particles, the total number of leptons minus the total number of antileptons. [1955 60] * * * … Universalium
lepton number — noun A quantum number related to the difference between the number of leptons and antileptons in a system … Wiktionary
lepton number — Physics. in a process involving elementary particles, the total number of leptons minus the total number of antileptons. [1955 60] … Useful english dictionary
conservation of lepton number — Physics. the principle that the total lepton number remains constant in any process involving elementary particles. * * * … Universalium
conservation of lepton number — Physics. the principle that the total lepton number remains constant in any process involving elementary particles … Useful english dictionary
Lepton — 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 frac|1|2… … Wikipedia
lepton — lepton1 /lep ton/, n., pl. lepta / teuh/. 1. an aluminum coin of modern Greece, the 100th part of a drachma. 2. a small copper or bronze coin of ancient Greece. [1715 25; < Gk leptón (nómisma) a small (coin), n. use of neut. of leptós small; see… … Universalium
lepton — n. (Physics) an elementary particle that participates in weak interactions but does not participate in the strong interaction; it has a baryon number of 0. Some known leptons are the {electron}, the {negative muon}, the {tau minus particle}, and… … The Collaborative International Dictionary of English
lepton — I. noun (plural lepta) Etymology: New Greek, from Greek, a small coin, from neuter of leptos peeled, slender, small, from lepein to peel more at leper Date: circa 1741 a former monetary unit equal to 1/100 drachma II. noun Etymology: Greek leptos … New Collegiate Dictionary
lepton — n. any of a number of subatomic particles that have very little mass … English contemporary dictionary

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