Whether the much-studied X(3872) is an axial or tensor resonance makes an important difference to its interpretation. A recent paper by the BABAR Collaboration [3] raised the viable hypothesis that it might be a J(PC) = 2(-+) state based on the pi(+)pi(-)pi(0) spectrum in the X -> J/psi omega decays. Furthermore, the Belle Collaboration published the pi(+)pi(-) invariant mass and spin-sensitive angular distributions in X -> J/psi rho decays [2]. Starting from a general parametrization of the decay amplitudes for the axial and tensor quantum numbers of the X, we reanalyze the whole set of available data. The level of agreement of the two spin hypotheses with data is interpreted with a rigorous statistical approach based on Monte Carlo simulations in order to be able to combine all the distributions regardless of their different levels of sensitivity to the spin of the X. Our analysis returns a probability of 5.5% and 0.1% for the agreement with data of the 1(++) and 2(-+) hypotheses, respectively, once we combine the whole information (angular and mass distributions) from both channels. On the other hand, the separate analysis of J/psi rho (angular and mass distributions) and J/psi omega (mass distribution) indicates that the 2(-+) assignment is excluded at the 99.9% C.L. by the former case, while the latter excludes at the same level the 1(++) hypothesis. There are therefore indications that the two decay modes behave in a different way.
Spin of the X(3872) / Faccini, Riccardo; F., Piccinini; Pilloni, Alessandro; Polosa, ANTONIO DAVIDE. - In: PHYSICAL REVIEW D, PARTICLES, FIELDS, GRAVITATION, AND COSMOLOGY. - ISSN 1550-7998. - 86:5(2012), p. 054012. [10.1103/physrevd.86.054012]
Spin of the X(3872)
FACCINI, Riccardo;PILLONI, ALESSANDRO;POLOSA, ANTONIO DAVIDE
2012
Abstract
Whether the much-studied X(3872) is an axial or tensor resonance makes an important difference to its interpretation. A recent paper by the BABAR Collaboration [3] raised the viable hypothesis that it might be a J(PC) = 2(-+) state based on the pi(+)pi(-)pi(0) spectrum in the X -> J/psi omega decays. Furthermore, the Belle Collaboration published the pi(+)pi(-) invariant mass and spin-sensitive angular distributions in X -> J/psi rho decays [2]. Starting from a general parametrization of the decay amplitudes for the axial and tensor quantum numbers of the X, we reanalyze the whole set of available data. The level of agreement of the two spin hypotheses with data is interpreted with a rigorous statistical approach based on Monte Carlo simulations in order to be able to combine all the distributions regardless of their different levels of sensitivity to the spin of the X. Our analysis returns a probability of 5.5% and 0.1% for the agreement with data of the 1(++) and 2(-+) hypotheses, respectively, once we combine the whole information (angular and mass distributions) from both channels. On the other hand, the separate analysis of J/psi rho (angular and mass distributions) and J/psi omega (mass distribution) indicates that the 2(-+) assignment is excluded at the 99.9% C.L. by the former case, while the latter excludes at the same level the 1(++) hypothesis. There are therefore indications that the two decay modes behave in a different way.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.