KNO scaling in the neutral pion multiplicity distributions for π−p interactions at 40 and 250 GeV/c

“…The modified version of SG distribution described the data extremely well as shown in the references [9,10]. Another distribution which remarkably well described the data on hadron-hadron and hadron-nucleus interactions, from a large number of experiments was Krasznovszky-Wagner distribution (KW) [11][12][13].…”

“…The distribution have been used to study for e + e − , pp and particle production in π − p interactions mainly in the context of KNO scaling [11][12][13].…”

Investigation of particle production in $h{\text -}A$ collisions using statistical distributions

“…The modified version of SG distribution described the data extremely well as shown in the references [9,10]. Another distribution which remarkably well described the data on hadron-hadron and hadron-nucleus interactions, from a large number of experiments was Krasznovszky-Wagner distribution (KW) [11][12][13].…”

“…The distribution have been used to study for e + e − , pp and particle production in π − p interactions mainly in the context of KNO scaling [11][12][13].…”

Investigation of particle production in $h{\text -}A$ collisions using statistical distributions

“…Slight deficiencies of the fits at low multiplicities were cured by the use of the correct relation between discrete and continuous distribution [18]. Some experimental works [19][20][21][22][23] were reported to show the validity of KNO scaling at finite energies in the multiparticle production process. In contrast, the violation of KNO scaling to the UA5 data of pp collisions at √ s = 546 GeV at the CERN collider [24] provoked a great deal of discussion.…”

Multiplicity scaling of target protons in high-energy nucleus–nucleus and hadron–nucleus interactions

Energy measurement in the TeV region with a “thin” sampling calorimeter