Consistency tests of rho0(770)-f0(980) mixing in pi(-)p->pi(-)pi(+)n

Abstract

Analytical solutions of the S-and P-wave subsystem in pi(-)p->pi(-)pi(+)n and pi(+)p->pi(+)pi(-)p measured on polarized targets at CERN reveal evidence for rho0(770)-f0(980) spin mixing. We study the response of these analytical solutions to the presence of small D-wave amplitudes with helicity 0,1 (Response analysis A) and helicity 0,1,2 (Response analysis B) which contaminate the input data. In both Response analyses the rho0(770)-f0(980) spin mixing effect is clearly consistent with the presence of the D-wave amplitudes provided they are not too large below 750 MeV. We also show that the mixing is consistent with the isospin relations for the S-wave intensities measured in pi(-)p->pi(-)pi(+)n, pi(-)p->pi(0)pi(0)n and pi(+)p->pi(+)pi(+)n processes. These results strengthen the experimental evidence for the rho0(770)-f0(980) spin mixing in pi(-)p->pi(-)pi(+)n found in the analytical solutions and are in agreement with recent theoretical expectations. We present a survey of moduli of the S-wave amplitudes and S-wave intensities from all amplitude analyses of the five measurements of pi(-)p->pi(-)pi(+)n and pi(+)n->pi(+)pi(-)p on polarized targets. All analyses are in a remarkable agreement that shows a clear evidence for a resonant structure at rho0(770) mass in the S-wave moduli and intensities in a broad confirmation of the rho0(770)-f0(980) spin mixing. We comment on our recent elastic and joint pipi phase-shift analyses of the CERN pi(-)pi(+) and E852 pi(0)pi(0) data and their agreement with the 1997 and 2002 Cracow Solutions, respectively. Our key observation is that all these solutions for the phase shift delta0S are consistent with the evidence for rho0(770)-f0(980) mixing documented by our survey.