Pseudoscalar and Vector $T_{QQ\bar q\bar q'}$ Spectra and Couplings from LSR at NLO - Laboratoire Univers et Particules de Montpellier Accéder directement au contenu
Article Dans Une Revue Nucl.Phys.A Année : 2023

Pseudoscalar and Vector $T_{QQ\bar q\bar q'}$ Spectra and Couplings from LSR at NLO

R. Albuquerque
  • Fonction : Auteur
D. Rabetiarivony
  • Fonction : Auteur

Résumé

We present systematic and improved estimates of the masses and couplings of the $(0^-)$ and $(1^-)$$T_{QQ\bar q\bar q'}$ states ($Q= c,b;q,q'= u,d,s$) using QCD Laplace sum rules (LSR) and their ratios R within $\tau$ and $t_c$-stabilities criteria complemented by the (rigorous) condition: $R_{P/C} \equiv${ Pole (Resonance) over the QCD continuum contributions}$ \geq 1$. NLO factorized perturbative (PT) QCD corrections are included for giving a meaning on the choice of the used running MS heavy quark mass, while the OPE is truncated at the under-controlled $d=6$ dimension condensates. Our results are compiled in Tables 4,7,10,12 and compared with some LO existing ones. We observe that the icurrents lead to two classes : Class H (Heavy) states with masses around 6 (resp. 13) GeV for charm (resp. bottom) channels. Class L (Light) states $T_{cc\bar q\bar q'}(3.8\sim 4.4)$ where the pseudoscalar (resp. all vector states) are below the open charm thresholds and $T_{bb\bar q\bar q'}(\simeq 10.4)$ where all of them are below the open beauty thresholds. Mass-splittings due to SU3 breakings are tiny (< 50 MeV). Though more accessible experimentally, Class L states have weaker couplings to the currents than the Class H ones and may be difficult to observe. The mass-splittings between the 1st radial excitation and the ground state are about 2 GeV which are (almost) heavy flavour and current-type independent while their couplings are large signaling new dynamics of these exotic states. Quark masses behaviours of the masses and couplings based on empirical observation are discussed. The eventual findings of the $T_{cc\bar u\bar d}$(6.3) $0^-$ ground state which may not be obscured by the Class L 1st radial excitations can be an alternative way to test the vacuum saturation violation of the four-quark $d=6$ condensates.

Dates et versions

hal-03972512 , version 1 (03-02-2023)

Identifiants

Citer

R. Albuquerque, S. Narison, D. Rabetiarivony. Pseudoscalar and Vector $T_{QQ\bar q\bar q'}$ Spectra and Couplings from LSR at NLO. Nucl.Phys.A, 2023, 1034, pp.122637. ⟨10.1016/j.nuclphysa.2023.122637⟩. ⟨hal-03972512⟩
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