Walking technicolor (WTC) models predict the existence of heavy neutral pseudo-Goldstone bosons (PGBs), whose masses are typically expected to be larger than 100 GeV. In this paper, we investigate the production and decay of these particles at the high energy e(+)e(-) experiments, LEP II and NLC. We find that, in WTC models, the production of neutral PGBs can be significantly enhanced, by one or two orders of magnitude, with respect to the predictions of traditional (QCD-like) TC models. The origin of such an enhancement is the existence of several low energy TC scales, that are likely to appear in WTC theories. This could allow the PGBs to be observed even at the energy and luminosity of the LEP II experiment. At LEP II, the PGBs are expected to be produced in the e(+)e(-) --> P gamma channel, and, possibly, in the e(+)e(-) --> Pe(+)e(-) channel, with a total rate that can be of the order of several tenths per year. Due to the typical large values of PGB masses, the relative branching ratios of PGB decays, in WTC theories, are different from those predicted in traditional TC models. In particular, a large fraction of these decays can occur in the P --> gamma gamma channel. In considering the PGB production, at LEP II, we find that, in most of the final states, the distinctive signatures of WTC events should allow the Standard Model background to be reduced to a negligible level. We also find that, at a 500 GeV NLC experiment, the production of neutral PGBs can occur in several channels, and can be of the order of 10(3) events per year. Instead, when we consider traditional TC models, we find that no PGB are typically predicted to be observed, both at LEP II and the NLC experiment.

Lubicz, V., Santorelli, P. (1996). Production of neutral pseudo-Goldstone bosons at LEP II and NLC in multiscale walking technicolor models. NUCLEAR PHYSICS. B, 460(1), 3-36 [10.1016/0550-3213(95)00644-3].

Production of neutral pseudo-Goldstone bosons at LEP II and NLC in multiscale walking technicolor models

LUBICZ, Vittorio;
1996-01-01

Abstract

Walking technicolor (WTC) models predict the existence of heavy neutral pseudo-Goldstone bosons (PGBs), whose masses are typically expected to be larger than 100 GeV. In this paper, we investigate the production and decay of these particles at the high energy e(+)e(-) experiments, LEP II and NLC. We find that, in WTC models, the production of neutral PGBs can be significantly enhanced, by one or two orders of magnitude, with respect to the predictions of traditional (QCD-like) TC models. The origin of such an enhancement is the existence of several low energy TC scales, that are likely to appear in WTC theories. This could allow the PGBs to be observed even at the energy and luminosity of the LEP II experiment. At LEP II, the PGBs are expected to be produced in the e(+)e(-) --> P gamma channel, and, possibly, in the e(+)e(-) --> Pe(+)e(-) channel, with a total rate that can be of the order of several tenths per year. Due to the typical large values of PGB masses, the relative branching ratios of PGB decays, in WTC theories, are different from those predicted in traditional TC models. In particular, a large fraction of these decays can occur in the P --> gamma gamma channel. In considering the PGB production, at LEP II, we find that, in most of the final states, the distinctive signatures of WTC events should allow the Standard Model background to be reduced to a negligible level. We also find that, at a 500 GeV NLC experiment, the production of neutral PGBs can occur in several channels, and can be of the order of 10(3) events per year. Instead, when we consider traditional TC models, we find that no PGB are typically predicted to be observed, both at LEP II and the NLC experiment.
1996
Lubicz, V., Santorelli, P. (1996). Production of neutral pseudo-Goldstone bosons at LEP II and NLC in multiscale walking technicolor models. NUCLEAR PHYSICS. B, 460(1), 3-36 [10.1016/0550-3213(95)00644-3].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11590/154491
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