Single variable description of inclusive spectra
A.Biallas and L.Stodolsky, Physical Review D13,1199(1976)
Scaling laws for energy inclusive measurements
W.Ochs and L.Stodolsky, Phys.Lett.69B,225(1977)
The energy profile of a proton jet.
H.Fesefeldt, W.Ochs and L.Stodolsky, Phys.Lett.74B,389(1978)
Clustering invariant quantities and Energy Inclusive Measurements
W.Ochs, Physica Scripta 19,127(1979)
Energy and Quantum Number Flow
in K+p and +p interactions at 32 and 70 GeV/c
I.V.Ajinenko et al., Z.Phys.C16,291(1983)
Charge and Energy Flow
in +p, K+p and pp at 250 GeV/c.
I.V.Ajinenko et al., Z.Phys.C43,37(1989)
Energy (a) and charge (b) as function of the variable = x/pT.
Ratio of charge and energy as function of the variable = x/pT.
Differential cross sections as function of the invariant mass (a) and measured energy (b) in a sidewise calorimeter with an acceptance angle of 45o.
Ratio of charge and energy as function of the variable = x/pT, for different values of the number of negative particles n.