Physics – High Energy Physics – High Energy Physics - Phenomenology
Scientific paper
1998-09-28
Nucl.Phys. B542 (1999) 329-345
Physics
High Energy Physics
High Energy Physics - Phenomenology
20 pages
Scientific paper
10.1016/S0550-3213(98)00851-7
The odderon intercept is calculated directly, from its expression via an average energy of the odderon Hamiltonian, using both trial wave functions in the variational approach and the wave function recently constructed by R.A.Janik and J.Wosiek. The results confirm their reported value for the energy. The odderon intercept is calculated directly, from its expression via an average energy of the odderon Hamiltonian, using both trial wave functions in the variational approach and the wave function recently constructed by R.A.Janik and J.Wosiek.The results confirm their reported value for the energy. Variational calculations give energies some 30% higher. However they also predict the odderon intercept to be quite close to unity. In fact, for realistic values of $\alpha_s$, the intercept calculated variationally is at most 2% lower than the exact one: 0.94 instead of 0.96. It is also found that the solution for $q_3=0$ does not belong to the odderon spectrum. The diffusion parameter is found to be of the order 0.6.
Braun Mikhail A.
Gauron Pierre
Nicolescu Basarab
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