Self-affine scaling from non-integer phase-space partition in $π^+$p and K$^+$p Collisions at 250 GeV/$c$

Details Self-affine scaling from non-integer phase-space partition in $π^+$p and K$^+$p Collisions at 250 GeV/$c$ Self-affine scaling from non-integer phase-space partition in $π^+$p and K$^+$p Collisions at 250 GeV/$c$

1998-05-25

arxiv.org/abs/hep-ex/9805030v1

Phys.Lett. B431 (1998) 451-458

Physics

High Energy Physics

High Energy Physics - Experiment

latex, 9 pages, 4 figures

Scientific paper

A factorial-moment analysis with real (integer and non-integer) phase space
partition is applied to $\pi^+$p and K$^+$p collisions at 250 GeV/$c$. Clear
evidence is shown for self-affine rather than self-similar power-law scaling in
multiparticle production. The three-dimensional self-affine second-order
scaling exponent is determined to be 0.061$\pm$0.010.

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