Trabalho apresentado em evento
The nuclear matter effects in π0 photoproduction at high energies
Fecha
2006-12-01Registro en:
Brazilian Journal of Physics, v. 36, n. 4 B, p. 1366-1370, 2006.
0103-9733
10.1590/S0103-97332006000800007
S0103-97332006000800007
WOS:000243070600007
2-s2.0-34248598800
2-s2.0-34248598800.pdf
Autor
Universidade de São Paulo (USP)
Universidade Estadual Paulista (Unesp)
Center of Applied Studies for Nuclear Developments (CEADEN)
Idaho State University
RIKEN
Resumen
The in-medium influence on π0 photoproduction from spin zero nuclei is carefully studied in the GeV range using a straightforward Monte Carlo analysis. The calculation takes into account the relativistic nuclear recoil for coherent mechanisms (electromagnetic and nuclear amplitudes) plus a time dependent multi-collisional intranuclear cascade approach (MCMC) to describe the transport properties of mesons produced in the surroundings of the nucleon. A detailed analysis of the meson energy spectra for the photoproduction on 12C at 5.5 GeV indicates that both the Coulomb and nuclear coherent events are associated with a small energy transfer to the nucleus (≲ 5 MeV), while the contribution of the nuclear incoherent mechanism is vanishing small within this kinematical range. The angular distributions are dominated by the Primakoff peak at extreme forward angles, with the nuclear incoherent process being the most important contribution above θπ0 ≲ 20. Such consistent Monte Carlo approach provides a suitable method to clean up nuclear backgrounds in some recent high precision experiments, such as the PrimEx experiment at the Jefferson Laboratory Facility.