Analysis of radial scaling in single-particle inclusive reactions

Abstract: An analysis of an extensive sample of the world's data has been performed to test the hypothesis of radial scaling. We have studied the inclusive reactions p + p --+ (~* %~ or K * or p or 9) +anything to determine the behavior of the invariant cross section as a function of p,, x, = E*/E*,,,, the radial scaling variable, and s.The data cover a range in p, from 0.25 to -6.0 GeV/c and a range in d s from 3.0 to 63 GeV. For small x, and all available p, the single-particle inclusive cross sections for the reactio… Show more

“…A reasonable fit to data has been obtained by following the empirical observation that the longitudinal momentum distributions of the leading nucleon in pp collisions is flat [24], which translates into a linear rise of the inclusive invariant cross section as a function of x R . The transverse momentum distribution is also affected by the leading particle effect, resulting in an enhanced leading particle production in the forward direction (see for example [19,23]). In the proton fit, this is empirically accounted for by the term (…”

“…An alternative scaling variable x R = E * /E * max , defined as the ratio of the energy of the detected particle in the centre-of-momentum frame and the maximum energy kinematically available to the detected particle, was suggested by Yen [18] and Taylor et al [19] and shown to greatly extend the range of validity of scaling at subasymptotic energies. As discussed in section 4.2, in the comparison of NA56/SPY and NA20 data to pBe data collected at lower energies, we have not observed an improved scale invariance when x R is used.…”

“…For cylindrical symmetry this allows the analytical integration of equations (18) and (19). In case of continuous targets of radius R, the integration yields:…”

On particle production for high energy neutrino beams

“…A reasonable fit to data has been obtained by following the empirical observation that the longitudinal momentum distributions of the leading nucleon in pp collisions is flat [24], which translates into a linear rise of the inclusive invariant cross section as a function of x R . The transverse momentum distribution is also affected by the leading particle effect, resulting in an enhanced leading particle production in the forward direction (see for example [19,23]). In the proton fit, this is empirically accounted for by the term (…”

“…An alternative scaling variable x R = E * /E * max , defined as the ratio of the energy of the detected particle in the centre-of-momentum frame and the maximum energy kinematically available to the detected particle, was suggested by Yen [18] and Taylor et al [19] and shown to greatly extend the range of validity of scaling at subasymptotic energies. As discussed in section 4.2, in the comparison of NA56/SPY and NA20 data to pBe data collected at lower energies, we have not observed an improved scale invariance when x R is used.…”

“…For cylindrical symmetry this allows the analytical integration of equations (18) and (19). In case of continuous targets of radius R, the integration yields:…”

On particle production for high energy neutrino beams

“…The x R = E ′ /E ′ max , defined as the ratio of the energy of the detected particle in the center of mass frame and the maximum energy kinematically available extends the range of validity of scaling [69,70]. For our purposes even the variable x lab = p L /p 0 where p L is the longitudinal component of the momentum of the secondary and p 0 is the momentum of the primary beam is sufficiently good scaling variable.…”

Observation of Disappearance of Muon Neutrinos in the NuMI Beam

“…It allows particle production to be quantitatively described in the most simple way possible and allows data collected with different initial proton beam momenta to be compared. Under two conditions, the produced particle is ultrarelativisic, E ≫ m, and it's divergence is very small, p z ≫ p T , the Feynman scaling variable can be expressed as x F ≃ p z /p 0 , where p 0 is the momentum of the incident particle [61,62].…”

Measurement of the Muon Neutrino Inclusive Charged Current Cross Section on Iron using the MINOS Detector