Główne pojęcia
Complex conjugate poles in quark propagators, potentially linked to color confinement, can significantly impact the theoretical predictions of B meson decay rates, offering a possible solution to the long-standing discrepancy between inclusive and exclusive measurements of the CKM matrix element |Vcb|.
Streszczenie
This research paper investigates the influence of complex conjugate poles (CCPs) in quark propagators on the decay rates of B mesons, particularly focusing on the implications for the persistent discrepancy in |Vcb| measurements. The authors argue that the standard operator product expansion (OPE) method, while effective in describing inclusive decays, relies on the assumption of quark-hadron duality, which might be violated due to the presence of CCPs. These poles, potentially indicative of color confinement, introduce non-analytical behavior in the quark propagator, leading to additional contributions to decay rates not captured by conventional perturbative calculations.
The authors demonstrate that incorporating CCP contributions into the calculation of the B → Xcℓν decay rate and the B0d meson lifetime can lead to a reconciliation between inclusive and exclusive |Vcb| values within one standard deviation. They achieve this by adjusting the residue of the pole, a parameter characterizing the strength of the CCP contribution. Notably, the study reveals that the absolute value of the residue must remain relatively small to avoid excessively large corrections to observables.
The paper highlights the potential of CCPs in resolving a long-standing puzzle in particle physics and underscores the need for further investigation into the non-perturbative aspects of gauge theories, particularly concerning the phenomenological implications of CCPs beyond heavy quark physics.
Statystyki
The discrepancy between inclusive and exclusive |Vcb| measurements is reported as 3.0σ by the Particle Data Group (PDG) 2024.
The kinetic mass of the bottom quark (mkin
b) is set to 4.573 GeV.
The pole masses of the bottom and charm quarks are set to 4.78 GeV and 1.67 GeV, respectively.
The pole position for the CCP is fixed at Q = (-2.325 + 1.145i) GeV2.
The absolute value of the residue is set to |R| = 0.115.
The inclusive determination of |V OPE
cb | is (42.16 ± 0.50) × 10−3.
The exclusive determinations of |V exc
cb | are (39.7 ± 0.6) × 10−3 (2/1/0) and (39.3 ± 0.6) × 10−3 (3/2/1) for different fitting scenarios.
The conventional OPE result for the B0d meson lifetime is ΓOPE = (0.615+0.108
−0.069) ps−1.
The Wilson coefficients at next-to-leading order in QCD corrections are C1(mb) = 1.07 and C2(mb) = −0.17.
Cytaty
"In this Letter, nontrivial analytic structure of the quark propagator is discussed for B-meson inclusive decays. Attributed to invalidity of the standard K¨all´en-Lehman spectral representation, complex conjugate poles alter the evaluation of decay rates, which lead to violation of quark-hadron duality."
"It is demonstrated that there exists a parameter region which explains |Vcb| and B0d-meson lifetime simultaneously within 1σ via the complex conjugate poles from charm quark."