https://doi.org/10.1140/epjc/s10052-018-5755-7
Regular Article - Experimental Physics
From identical S- and P-wave spectra to maximally distinct polarizations: probing NRQCD with states
1
LIP and IST, Lisbon, Portugal
2
CERN, Geneva, Switzerland
3
HEPHY, Vienna, Austria
* e-mail: pietro.faccioli@cern.ch
** e-mail: carlos.lourenco@cern.ch
Received:
6
December
2017
Accepted:
21
March
2018
Published online:
29
March
2018
A global analysis of ATLAS and CMS measurements reveals that, at mid-rapidity, the directly-produced , and J/ mesons have differential cross sections of seemingly identical shapes, when presented as a function of the mass-rescaled transverse momentum, . This identity of kinematic behaviours among S- and P-wave quarkonia is certainly not a natural expectation of non-relativistic QCD (NRQCD), where each quarkonium state is supposed to reflect a specific family of elementary production processes, of significantly different -differential cross sections. Remarkably, accurate kinematic cancellations among the various NRQCD terms (colour singlets and octets) of its factorization expansion can lead to a surprisingly good description of the data. This peculiar tuning of the NRQCD mixtures leads to a clear prediction regarding the and polarizations, the only observables not yet measured: they should be almost maximally different from one another, and from the J/ polarization, a striking exception in the global panorama of quarkonium production. Measurements of the difference between the , and J/ polarizations, complementing the observed identity of momentum dependences, represent a decisive probe of NRQCD.
© The Author(s), 2018