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Convergent polynomial expansion and scaling in diffraction scattering. I. pp scattering

Journal Article · · Phys. Rev., D; (United States)
Using Mandelstam analyticity of the s and costheta planes and conformal mapping, a variable chi is constructed which has the potentialities of reproducing Regge behavior and/or some known scaling variables. The role of the physical region in the mapped plane for the optimized polynomial expansion (OPE) is emphasized. Ambiguities in using the OPE in terms of Laguerre polynomials at finite energies are pointed out. However, at finite energies there exists a convergent polynomial expansion (CPE) for which the nature of polynomials and the rate of convergence vary with energy. The first term in the expansion gives a good fit to the world data on forward slopes for pp scattering for all energies with effective shapes of spectral function, but yields a good fit to the high-energy data for s > 35 GeV/sup 2/ with the theoretical boundaries. The possible existence of a scaling function at asymptotic energies as a series in Laguerre polynomials in the new variable chi is pointed out. Available high-energy data on the pp cross-section ratio for p/sub lab/ > or = 50 GeV/c and all angles exhibit scaling in this variable. It is found that at high energies scaling occurs even for larger-vertical-bart vertical-bar data lying well outside the diffraction peak. The implication of this type of scaling in the data analysis at high energies using OPE is pointed out. The energy dependence of dip position at high energies is predicted to be vertical-bart/sub d/(s) vertical-bar = 4m/sup 2//sub ..pi../ )sinh(4.35 +- 0.05)/4m/sub ..pi..//sup 2/b (s))/sup 1/2/)/sup 2/, which is in very good agreement with the existing data.
Research Organization:
Institute of Physics, A/105, Saheed Nagar, Bhubaneswar-751 007, Orissa, India
OSTI ID:
6444340
Journal Information:
Phys. Rev., D; (United States), Journal Name: Phys. Rev., D; (United States) Vol. 19:1; ISSN PRVDA
Country of Publication:
United States
Language:
English

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72 PHYSICS OF ELEMENTARY PARTICLES AND FIELDS
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ASYMPTOTIC SOLUTIONS
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