Diffraction at the LHC

Abstract

We show that the diffractive pp (and pp) data (on σtot, dσel/dt, proton dissociation into low-mass systems, σD(low M), and high-mass dissociation, dσ/d(η)) in a wide energy range from CERN-ISR to LHC energies, may be described in a two-channel eikonal model with only one `effective' pomeron. By allowing the pomeron coupling to the diffractive eigenstates to depend on the collider energy (as is expected theoretically) we are able to explain the low value of σD(low M) measured at the LHC. We calculate the survival probability, S2, of a rapidity gap to survive `soft rescattering'. We emphasize that the values found for S2 are particularly sensitive to the detailed structure of the diffractive eigenstates.