Tau lepton

Tau Lepton
Composition:	c²
Electric charge:	−1 e
Color charge:	None
Spin:	½

The tau lepton (often called the tau, tau particle, or occasionally the tauon, symbol $\tau^{-}\ \,$ ) is a negatively charged tau neutrino and tau antineutrino).

Classification

The tau lepton belongs to the 3rd generation of positron, respectively.

Decay

The tau is the only lepton that can decay into hadrons—the other leptons do not have the necessary mass. Like the other decay modes of the tau lepton, the hadronic decay is through the weak interaction.

Since tau-like lepton number is conserved in weak decays, a tau neutrino is created when a tau lepton decays to a muon or electron.

The branching ratio of the common tau decays are:

17.84% for decay into a tau neutrino, electron and electron neutrino
17.36% for decay into a tau neutrino, muon and muon neutrino

Discovery

The tau lepton was detected in a series of experiments between 1974 and 1977 by Martin Lewis Perl with his colleagues at the SLAC-LBL group [1]. Their equipment consisted of SLAC's then-new e⁺-e⁻ colliding ring, called SPEAR, and the LBL magnetic detector. They could detect and distinguish between leptons, hadrons and photons. They did not detect the tau lepton directly, but rather discovered anomalous events:

"We have discovered 64 events of the form

$e^+ + e^- \rightarrow e^{\pm} + \mu^{\mp} + \geq \mbox{ 2 undetected particles}$

for which we have no conventional explanation."

The need for at least 2 undetected particles was shown by the inability to conserve energy and momentum with only one. However, no other muons, electrons, photons, or hadrons were detected. It was proposed that this event was the production and subsequent decay of a new particle pair:

$e^+ + e^- \rightarrow \tau^+ + \tau^- \rightarrow e^{\pm} + \mu^{\mp} + \mbox{four neutrinos}$

This was difficult to verify, because the energy to produce the τ⁺τ⁻ pair is similar to the threshold for D meson production. Work done at DESY-Heidelberg, and with the Direct Electron Counter (DELCO) at SPEAR, subsequently established the mass and spin of the tau.

Martin Perl shared the 1995 Nobel Prize for physics with Frederick Reines. The latter was awarded his share of the prize for detecting the neutrino.

References

M. L. Perl et al, "Evidence for Anomalous Lepton Production in e⁺-e^- Annihilation" Phys. Rev. Lett., 35, 1489 (1975)
Yao, W. M; et al. (2006). "Tau Lepton". Journal of Physics G 33.

v • d • e Polaron

Leptons

This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article "Tau_lepton". A list of authors is available in Wikipedia.

Tau lepton

Classification

Decay

Discovery

See also

References