The single charged top-pion production processes e+e- → tbПt- and e+e- → W+Пt- are studied in the framework of top-color-assisted technicolor (TC2) model.Our studies show that the cross section σ(e+e-→tbП-t) reaches the level of tens of fb andσ(e+e-→W+П-t) reaches the level of a few fb. With the yearly integrated luminosity of (ξ) ~ 500 fb-1 expected at the planned colliders, one could collect thousands of charged top-pion of events via the process e+e-→tbП-t and hundreds of events via the process e+e-→W+П-t.The flavor changing decay mode П-t→bc is the best channel to detect charged top-pion due to the clean SM background. With a large number of events and the clean background, the charged top-pion should be observable at the planned colliders. Therefore, our studies in this paper can help us to search for charged top-pion, and furthermore, to test the TC2 model.
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机译:The single charged top-pion production processes e+e- → tbПt- and e+e- → W+Пt- are studied in the framework of top-color-assisted technicolor (TC2) model.Our studies show that the cross section σ(e+e-→tbП-t) reaches the level of tens of fb andσ(e+e-→W+П-t) reaches the level of a few fb. With the yearly integrated luminosity of (ξ) ~ 500 fb-1 expected at the planned colliders, one could collect thousands of charged top-pion of events via the process e+e-→tbП-t and hundreds of events via the process e+e-→W+П-t.The flavor changing decay mode П-t→bc is the best channel to detect charged top-pion due to the clean SM background. With a large number of events and the clean background, the charged top-pion should be observable at the planned colliders. Therefore, our studies in this paper can help us to search for charged top-pion, and furthermore, to test the TC2 model.
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