In order to guide the extrapolation of the mass of the rho meson calculated in lattice QCD with dynamical fermions, we study the contributions to its self-energy, which vary most rapidly as the quark mass approaches zero, from the processes $\overrightarrow{\rho }\omega \pi$ and $\overrightarrow{\rho }\pi \pi .$ It turns out that in analyzing the most recent data from the CP-PACS Collaboration, it is crucial to estimate the self-energy from $\overrightarrow{\rho }\pi \pi$ using the same grid of discrete momenta as included implicitly in the lattice simulation. The correction associated with the continuum infinite volume limit can then be found by calculating the corresponding integrals exactly. Our error analysis suggests that a factor of 10 improvement in statistics at the lowest quark mass for which data currently exists would allow one to determine the physical rho mass to within $5\%.$ Finally, our analysis throws light on a long-standing problem with the J parameter.

• Received 30 April 2001

DOI:https://doi.org/10.1103/PhysRevD.64.094502