On the anomalous CP violation and noncontractibility of the physical space
Davor Palle (Rugjer Boskovic Institute, Zagreb, Croatia)
TL;DR
This paper explores how noncontractible space as an alternative symmetry-breaking mechanism can enhance the semileptonic CP asymmetry in B meson mixing, potentially explaining experimental anomalies.
Contribution
It demonstrates that noncontractible space can increase the CP asymmetry in B meson systems by about 13%, providing a novel theoretical approach to CP violation.
Findings
Enhancement of CP asymmetry by approximately 13%.
Potential for measurable deviations at collider experiments.
Implication of noncontractible space in particle physics phenomena.
Abstract
There is a growing evidence for the anomalously large semileptonic CP asymmetry in the B meson system measured at the Tevatron. The noncontractible space, as an alternative symmetry-breaking mechanism to the Higgs mechanism, can change standard field theoretic calculations of the physical processes mediated through quantum loops for large external momenta or large internal masses. The presence of the W bosons and t-quarks in loops of the B meson mixing can enhance the corresponding semileptonic CP asymmetry when the loop integration is up to the universal Lorentz and gauge invariant UV cut-off. We show that the enhancement is roughly 13%, thus the possible deviation is measurable at the Tevatron, LHCb, SuperKEKB and SuperB facilities.
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