Anatomy of the Soft-Photon Approximation in Hadron-Hadron Bremsstrahlung

Abstract

A modified Low procedure for constructing soft-photon amplitudes has been used to derive two general soft-photon amplitudes, a two-s-two-t special amplitude MTsTtsμ and a two-u-two-t special amplitude MTuTtsμ, where s, t and u are the Mandelstam variables. MTsTtsμ depends only on the elastic T-matrix evaluated at four sets of (s,t) fixed by the requirement that the amplitude be free of derivatives (∂T/∂s and /or ∂T/∂ t). Likewise MTuTtsμ depends only on the elastic T-matrix evaluated at four sets of (u,t). In deriving these amplitudes, we impose the condition that MTsTtsμ and MTuTtsμ reduce to MTsTtsμ and MTuTtsμ, respectively, their tree level approximations. The amplitude MTsTtsμ represents photon emission from a sum of one-particle t-channel exchange diagrams and one-particle s-channel exchange diagrams, while the amplitude MTuTts μ represents photon emission from a sum of one-particle t-channel exchange diagrams and one-particle u-channel exchange diagrams. The precise expressions for MTsTtsμ and MTuTtsμ are determined by using the radiation decomposition identities of Brodsky and Brown. We point out that it is theoretically impossible to describe all bremsstrahlung processes by using only a single class of soft-photon amplitudes. At least two different classes are required: the amplitudes which depend on s and t or the amplitudes which depend on u and t. When resonance effects are important, the amplitude MTsTtsμ, not MLow(st)μ, should be used. For processes with strong u-channel exchange effects, the amplitude MTuTtsμ should be the first choice.

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