TY - JOUR
T1 - Current-Component Independent Transition Form Factors for Semileptonic and Rare DLongRightArrow;πK Decays in the Light-Front Quark Model
AU - Choi, Ho Meoyng
N1 - Publisher Copyright:
© 2021 Ho-Meoyng Choi.
PY - 2021
Y1 - 2021
N2 - We investigate the exclusive semileptonic and rare DLong Right Arrow;πK decays within the standard model together with the light-front quark model (LFQM) constrained by the variational principle for the QCD-motivated effective Hamiltonian. The form factors are obtained in the q+=0 frame and then analytically continue to the physical timelike region. Together with our recent analysis of the current-component independent form factors f±q2 for the semileptonic decays, we present the current-component independent tensor form factor fTq2 for the rare decays to make the complete set of hadronic matrix elements regulating the semileptonic and rare DLong RightArrow;πK decays in our LFQM. The tensor form factor fTq2 are obtained from two independent sets JT+⊥,JT+- of the tensor current JTuv. As in our recent analysis of f-q2, we show that fTq2 obtained from the two different sets of the current components gives the identical result in the valence region of the q+=0 frame without involving the explicit zero modes and the instantaneous contributions. The implications of the zero modes and the instantaneous contributions are also discussed in comparison between the manifestly covariant model and the standard LFQM. In our numerical calculations, we obtain the q2-dependent form factors (f±,fT) for DLongRightArrow;πK and branching ratios for the semileptonic DLongRightArrow;πKℓvℓℓ=e,μ decays. Our results show in good agreement with the available experimental data as well as other theoretical model predictions.
AB - We investigate the exclusive semileptonic and rare DLong Right Arrow;πK decays within the standard model together with the light-front quark model (LFQM) constrained by the variational principle for the QCD-motivated effective Hamiltonian. The form factors are obtained in the q+=0 frame and then analytically continue to the physical timelike region. Together with our recent analysis of the current-component independent form factors f±q2 for the semileptonic decays, we present the current-component independent tensor form factor fTq2 for the rare decays to make the complete set of hadronic matrix elements regulating the semileptonic and rare DLong RightArrow;πK decays in our LFQM. The tensor form factor fTq2 are obtained from two independent sets JT+⊥,JT+- of the tensor current JTuv. As in our recent analysis of f-q2, we show that fTq2 obtained from the two different sets of the current components gives the identical result in the valence region of the q+=0 frame without involving the explicit zero modes and the instantaneous contributions. The implications of the zero modes and the instantaneous contributions are also discussed in comparison between the manifestly covariant model and the standard LFQM. In our numerical calculations, we obtain the q2-dependent form factors (f±,fT) for DLongRightArrow;πK and branching ratios for the semileptonic DLongRightArrow;πKℓvℓℓ=e,μ decays. Our results show in good agreement with the available experimental data as well as other theoretical model predictions.
UR - http://www.scopus.com/inward/record.url?scp=85120678346&partnerID=8YFLogxK
U2 - 10.1155/2021/4277321
DO - 10.1155/2021/4277321
M3 - Article
AN - SCOPUS:85120678346
SN - 1687-7357
VL - 2021
JO - Advances in High Energy Physics
JF - Advances in High Energy Physics
M1 - 4277321
ER -