The transverse spin correlations Ax,x and Ay,y have been measured in the d⃗p⃗→pspec{pp}sπ− reaction at COSY-ANKE at 353 MeV per nucleon. Here {pp}s denotes a proton-proton pair with low excitation energy, which is dominantly in the 1S0 state. By measuring three protons in the final state it was possible to extract events where there was a spectator proton pspec so that the reaction could be interpreted in terms of quasifree n⃗ p⃗→{pp}sπ−. The proton and neutron analyzing powers in this reaction were also deduced from this data set by averaging over the polarizations of the deuteron beam and hydrogen target, respectively. The values of Ay were shown to be consistent with a refined analysis of our earlier results obtained with a polarized proton incident on a deuterium target. Taking these data in combination with our previous measurements of the differential cross sections and analyzing powers in the p⃗p→{pp}s π0 reaction, a more robust partial wave decomposition was achieved. Three different acceptable solutions were found, and the only way of resolving this ambiguity without further theoretical input would be through a measurement of the mixed spin-correlation parameter Ax,z.
Measurement of spin observables in the quasifree np→{pp}_{s}π^{−} reaction at 353 MeV
BENATI, Paolo;GUIDOBONI, Greta;LENISA, Paolo;
2013
Abstract
The transverse spin correlations Ax,x and Ay,y have been measured in the d⃗p⃗→pspec{pp}sπ− reaction at COSY-ANKE at 353 MeV per nucleon. Here {pp}s denotes a proton-proton pair with low excitation energy, which is dominantly in the 1S0 state. By measuring three protons in the final state it was possible to extract events where there was a spectator proton pspec so that the reaction could be interpreted in terms of quasifree n⃗ p⃗→{pp}sπ−. The proton and neutron analyzing powers in this reaction were also deduced from this data set by averaging over the polarizations of the deuteron beam and hydrogen target, respectively. The values of Ay were shown to be consistent with a refined analysis of our earlier results obtained with a polarized proton incident on a deuterium target. Taking these data in combination with our previous measurements of the differential cross sections and analyzing powers in the p⃗p→{pp}s π0 reaction, a more robust partial wave decomposition was achieved. Three different acceptable solutions were found, and the only way of resolving this ambiguity without further theoretical input would be through a measurement of the mixed spin-correlation parameter Ax,z.I documenti in SFERA sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.