Moderator and beam port assembly for neutron radiography

1. A moderator and beam port assembly for use with a source of fast neutrons to provide a beam of thermal neutrons directed generally along an axis toward an object position for neutron radiography, said assembly comprisinga moderator formed of solid hydrogenous material, said moderator having a source cavity lying on said axis,means for supporting said source of fast neutrons adjacent said axis, said material having a high hydrogen density and substantially no neutron poisons and substantially surrounding said source cavity for thermalizing fast neutrons from said source within said moderator without substantial capture of the resulting thermal neutrons,aperture means containing neutron poisons outside said moderator for capturing substantially all neutrons striking said aperture means having energies less than a predetermined epithermal energy and for forming and defining an aperture disposed about said axis outside said moderator, said moderator having an axial inner beam port cavity therein extending about said axis axially from said aperture substantially to said source cavity for permitting thermal neutrons to escape from said moderator through said aperture,a collimator forming a generally axial collimating cavity symmetrically disposed about said axis and extending intermediate said aperture and said object position and diverging in straight lines in the direction of said object position, said collimator being composed of heavy metal and neutron poison and being axially spaced from said aperture,first heavy metal shielding disposed axially between said collimator and said aperture for attenuating gamma rays arising from neutron capture in said moderator and said aperture means, said first heavy metal shielding having an axial opening providing substantially clear passage between said aperture and the proximal end of said collimating cavity,neutron reflector means of hydrogenous material disposed about said moderator and said first heavy metal shielding for further moderating neutrons escaping from said moderator and reflecting neutrons back toward said moderator, andsecond heavy metal shielding means for attenuating gamma rays arising from neutron capture in said neutron reflector means.