32 research outputs found
Scaling in the semi-inclusive reactions K+p â Kân (charged) + anything at 5, 8.2 and 16 GeV/c
We study the scaling properties of the semi-inclusive reactions K+p â K0 + n (charged) + X0 (neutral) measuring the momentum spectra of K0-mesons for a given number of prongs n. Distributions of the particle density Ï(dÏn/dpL)/Ïn for the inclusive K0 at n = 2 and n = 4 show evidence for limited scaling at 5.0, 8.2 and 16 GeV/c incident K+ momenta. © 1972.SCOPUS: ar.jinfo:eu-repo/semantics/publishe
Scaling in the semi-inclusive reactions K/sup +/p producing K/sup 0/n (charged)+anything at 5, 82 and 16 GeV/c
The authors study the scaling properties of the semi-inclusive reactions K/sup +/p to K/sup 0/+n'(charged)+X/sup 0/(neutral) measuring the momentum spectra of K/sup 0/-mesons for a given number of prongs n. Distributions of the particle density omega (d sigma /sub n//dp/sub L/)/ sigma /sub n/ for the inclusive K/sup 0/ at n=2 and n=4 show evidence for limited scaling at 5.0, 8.2 and 16 GeV/c incident K /sup +/ momenta. (5 refs)
Study of the inclusive reactions K/sup +/p to K/sup 0/+anything at 5, 82 and 16 GeV/c in the proton fragmentation region
The inclusive reaction K/sup +/p to K/sup 0/x is studied at 5, 8.2 and 16 GeV/c. The inclusive cross sections as well as the inclusive transverse and longitudinal distributions are given. The energy dependence of the structure function in the proton fragmentation region is found to be consistent with s/sup -1/-behaviour indicating the presence of f'- phi exchange in the missing mass channel, with a relative contribution of 30-50%. (0 refs)
Study of the inclusive reaction + anything at 5, 8.2 and 16 GeV/c in the proton fragmentation region
The inclusive reaction is studied at 5, 8.2 and 16 GeV/c. The inclusive cross sections as well as the inclusive transverse and longitudinal distributions are given. The energy dependence of the structure function in the proton fragmentation region is found to be consistent with s/sup -1/-behaviour indicating the presence of f'- phi exchange in the missing mass channel with a relative contribution of 50-70%