Tomoya Akiba scite author profile

The exchange current effects in the photodisintegration of the deuteron at high energies are discussed. Special consideration is given to (i) correlation of the exchange effects with the large direct E1 transition, whose behavior has been the object of the recent several investigations, (ii) consequences of gauge invariance for the electric transitions due to exchange effects, (iii) evaluation of the magnetic transition caused by the (33)-resonance in terms of the results of the Chew-Low theory. It is shown that exchange effects affect the electric dipole transition operator in a way consistent with the Siegert theorem. The resulting change in the electric dipole cross section is evaluated in the adiabatic approximation as well as in neglect of higher order retardation effect. It is appreciable only at photon energies above the pion threshold. Some characteristics of the (33) -resonance effect are revealed, although nucleonrecoil effects and uncertainty of nuclear force make it difficult to give any quantitative estimation. Finally the results obtained here are compared with experiment. § 1. IntroductionRecently the progress of knowledge about nuclear force has motivated several detailed reviews 1 )-5) on the photodisintegration of the deuteron at about 80 Mev photon energy. As the result it has become clear that the experimental data can be well explained in terms of E1 and E2 transitions alone, provided that we use a somewhat large value to the D-state probability of the deuteron as well as the phase shifts fit for the p-p scattering data to the final continuum states. It should be noted that any necessity to invoke specific exchange current effects is not felt.Subsequently, the analysis is extended on the same line to the higher energy region. 6 ),7)This shows that the transitions from the deuteron D-state make the actual E1 cross section considerably larger than the Schiff and Marshall-Guth estimation. S ) Since the contribution of the direct (i.e. not involving exchange current interaction) E1 transition is recognized to be remarkable even in the high energy region, it is desirable to investigate the effects of pion-exchange-current, taking into account their correlation with the direct transition.In this paper we shall discuss the exchange c:urrent effects in the region of photon energy 100 Mev to 350 Mev, and see where theprevious discussions on the exchange current interaction must be supplemented or amended by the existence of the large direct E1 transition. For simplicity our discussion is confined to the contribution of one-pion-exchange processes.

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Tomoya Akiba

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Photodisintegration of the Deuteron at High Energies

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