Counting b-jets at the FCC-ee as a probe of top-quark flavor physics
Abstract
We explore the sensitivity of a future FCC-ee to multi-TeV new physics (NP) that can generate vector, scalar and tensor flavor-changing (FC) eetuk contact interactions (uk=u,c for k=1,2), probed via single top-quark production, e+ e- t uk, t uk γ (+ c.c.) and leading (following the top-quark decay) to two- and four-jet signals, e+ e- 2j + X, 4j + X, where X denotes any non-jet final-state particles. Our analysis exploits an approximately conserved Standard Model (SM) quantum number introduced in [1] and termed "b-Parity" (bP), which is applicable to scattering processes of the type e+ e- n · jb + m · j + X, where n and m are the number of produced b-jets and light-jets (u,d,c,s, and/or gluons) and bP=(-1)n. The FC eetuk four-fermion interactions can generate distinct bP-odd (bP = -1) signals in these multi-jet events, for which the only significant SM background stems from b-jet misidentification. We demonstrate that the FCC-ee, operating at a s = 240 GeV (the ZH run phase) with high luminosity and excellent flavor-tagging performance, is an ideal platform to search for these bP-odd signatures. Indeed, by simply counting the number of final-state b-jets, the FCC-ee can probe NP scales of Λ 10 TeV for the new heavy states that generate the vector, scalar and tensor eetu and/or eetc interactions. This reach, remarkably about 40 times the assumed FCC-ee center-of-mass energy, improves upon current bounds on some of these four-fermion operators by an order of magnitude and it critically relies on high-purity b-jet tagging.
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