rho, omega, phi-Nucleon Scattering Lengths from QCD Sum Rules

Abstract

The QCD sum rule method is applied to derive a formula for the rho, omega, phi meson-nucleon spin-isospin-averaged scattering lengths $a_{\rho,\omega,\phi}$. We found that the crucial matrix elements are $\langle\bar{q}\gamma_\mu D_\nu q\rangle_N$ ($q=u,d$) (twist-2 nucleon matrix element) for $a_{\rho,\omega}$ and $m_s\langle\bar{s}s\rangle_N$ for $a_\phi$, and obtained $a_\rho =0.14\pm 0.07$ fm, $a_\omega =0.11\pm 0.06$ fm and $a_\phi =0.035\pm 0.020$ fm. These small numbers originate from a common factor $1/(m_N+m_{\rho,\omega,\phi})$. Our result suggests a slight increase ($< 60$ MeV for $\rho$, $\omega$, and $<15$ MeV for $\phi$) of the effective mass of these vector mesons in the nuclear matter (in the {\it dilute} nucleon gas approximation). The origin of the discrepancy with the previous study was clarified.