Measurement of di-muons from 400 GeV/c protons interacting in a thick molybdenum/tungsten target

Abstract

Di-muon events emanating from a replica of the SHiP target at the CERN SPS (with a 400 GeV/c proton beam) contain a clear signal of production. The target consisted of 13 interaction lengths of molybdenum and tungsten, followed by a 2.4m iron hadron absorber. The di-muon rate is in reasonable agreement with based on Pythia v8. However, the J/ψ rate observed in the data is much lower than predicted by the Monte Carlo simulation, which is advantageous for SHiP since muons with a large pT are more difficult to deflect by the active muon shield. For the center of mass rapidity (y cm) interval with the largest overlap with the NA50 measurement, 0.3 < y cm < 0.6, we obtain the production cross-section per nucleon σ(J/ψ)/A including the branching ratios of J/ψ decays into muons, Bμ+μ-: Bμ+μ-σ(J/ψ)/A=(1.18~~0.04~~0.10)~nb/nucleon. This is to be compared to the NA50 extrapolated result (using a much thinner target): Bμ+μ-σ(J/ψ)/A=(0.99~~0.04)~nb/nucleon. Within the systematic errors, no significant enhancement due to secondary production of inside the target is observed. An upper limit at 90\% confidence level of possible contributions from secondary collisions of <32\% is obtained.