ZZ diboson

ZZ dibosons are force-carrying particles observed as products of proton–antiproton collisions at the Tevatron, the world’s second highest-energy particle accelerator (after the CERN Large Hadron Collider). The first observation of the ZZ dibosons was announced at a Fermilab seminar on 30 July 2008.[1]

The rarest diboson processes after ZZ dibosons are those involving the Higgs boson, so seeing ZZ diboson is an essential step in demonstrating the ability to see the Higgs boson. ZZ dibosons are the latest in a series of observations of pairs of gauge bosons (force-carrying particles) by DØ and its sister experiment CDF (also at Tevatron).

Final analysis of the data for this discovery was done by a team of international researchers including scientists of American, Belgian, British, Georgian, Italian, and Russian nationalities. The observations began with the study of the already-rare production of W bosons plus photons (W^± + γ); then Z bosons plus photons (Z⁰ + γ); then observation of W pairs (W^± + W^∓); then a mix of W and Z boson (W^± + Z⁰). The ZZ (Z⁰ + Z⁰) is the combination which has the lowest predicted likelihood of production in the Standard Model due to the smaller couplings.

• Dineutron
• Diproton
• Pauli exclusion principle
• Higgs boson
• List of particles

• "Event displays". DELPHI Experiment at LEP. CERN. 25 October 2002.
• "Event displays". L3 Experiment at LEP. CERN. 18 July 2000.
• "D-Zero ZZ Diboson" (Press release). Fermilab. 30 July 2008.
• "D-Zero ZZ pairs". Photos and graphics. Fermilab. 30 July 2008.
• Sfyrla, Anna. "Diboson Physics at CDF" (PDF).