Probing the Core of Nuclear Structure through the π N Scattering at an Electron-Positron Collider
Abstract
Short-range correlation pairs (SRCs) -- core of nuclear structure, composed of highly off-shell nucleons -- are mostly studied via electron-nucleon scattering, leaving a gap in meson-based probes. We propose probing SRC off-shell nucleons via quasielastic π+-bound proton scattering (π+ p π+ p) at electron-positron colliders, of which the beryllium-based (9Be) beam pipe of the BESIII experiment operating at BEPCII, addresses a key gap and enables meson-beam investigations of SRCs. We point out that off-shellness of SRC nucleons yields measurable signatures: accumulated missing energy (0.1\,GeV), shifted proton effective mass (0.7-0.8\,GeV), and cross-section differences from free scattering or with only Fermi motion. As an estimate, we find that BESIII's high luminosity and π+ yield support 104 scattering events, while STCF (50× higher luminosity) will greatly enhance this number. This first meson-beam SRC study at an electron-positron collider fills 9Be research gaps and advances understanding of nuclear structure core and nonperturbative QCD.
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