Patent Number: 
Section: claims

1. Multi-layered radiation protection wall (110) for shielding against gamma and particle radiation,wherein said radiation protection wall (110) comprises a sandwich-like structure having at least one first and one second layer arrangement (120, 130), wherein said first layer arrangement (120) comprises at least one primary shielding layer (122, 124) and said second layer arrangement comprises at least one secondary shielding layer (132, 134, 136);wherein said primary shielding layer is constructed as a spallation layer and said secondary shielding layer is constructed as a moderation layer,wherein at least one of said first and said second layer arrangements (120, 130) is sub-divided into a plurality of wall segments (7-12; 13-16) being at assembling predefined separable, such that said wall segments (10-12; 15-16), which are highly activated by said particle radiation, are constructed separately from said wall segments (7-9; 13-14), which are slightly activated by said particle radiation, andwherein dividing walls are provided between said spallation and moderation layers to enable separated disposal of said spallation and moderation layers. 2. Radiation protection wall (110) according to claim 1,wherein said first layer arrangement is multi-layered and comprises several spallation layers (122, 124) being separable from each other. 3. Radiation protection wall (110) according to claim 1,wherein the radiation protection wall (110) has at least the following layer structure:a first solid base layer (140),a spallation layer (122),a first dividing wall (92),a first moderation layer (132),a second dividing wall (92),a second moderation layer (134),a second solid base layer (152). 4. Radiation protection wall (110) according to claim 1,wherein in top view said radiation protection wall (110), when being in its operational position, has a two-dimensional modularly sub-divided structure,wherein concerning the planned disassembling in two dimensions—in polar coordinates azimuthal and radial—the structure is adjusted to the expected exposure dose. 5. Radiation protection wall (110) according to claim 1,wherein said moderation layer (132, 134, 136) contains mainly elements with an atomic number less than 30. 6. Radiation protection wall (110) according to claim 1,wherein said spallation layer (122, 124) contains mainly elements with an atomic number greater than 20. 7. Radiation protection wall (110) according to claim 1,wherein said moderation layer (132, 134, 136) has a density less than or equal to 3.5 g/cm3. 8. Radiation protection wall (110) according to claim 1,wherein said spallation layer (122, 124) has a density greater than or equal to 3 g/cm3. 9. Radiation protection wall (110) according to claim 1,wherein said moderation layer (132, 134, 136) contains ground excavation, sand, flint, feldspar, lime feldspar, potassic feldspar and/or gypsum. 10. Radiation protection chamber (1) for a reaction site on a particle accelerator, out of which a primary high energy beam (70) can be directed into said radiation protection chamber (1), thereby creating secondary radiation when hitting a target in said radiation protection chamber, wherein said radiation protection chamber comprises at leasta first radiation protection wall (110) positioned downbeam,a second radiation protection wall (210) positioned upbeam with an entry area for said high energy beam,lateral radiation protection walls (310, 410) as well as a ground and a ceiling,wherein the radiation protection walls, the ground and the ceiling together form a radiation protection cage being essentially closed around said reaction site,wherein the first radiation protection wall (110) being positioned downbeam has a central area (10-12, 15, 16, 21) for attenuating the radiation leaving the reaction site in a predefined solid angle around the forward direction of the high energy beam (70) and a peripheral area (7-9, 13, 14, 20) around the central area,wherein the first radiation protection wall (110) being positioned downbeam is made up of separate wall segments (7-12, 13-16, 20, 21) in such a manner that during deconstruction said wall segments from the central area and said wall segments from the peripheral area can be deconstructed separately from each other along predefined boundaries,wherein the sub-dividing of the first radiation protection wall (110) being positioned downbeam is fitted to the anisotropy to a second radiation (90) generated by the high energy beam (70). 11. Radiation protection chamber (1) according to claim 10,wherein the first radiation protection wall (110) and the lateral radiation protection walls (310, 410) have a different structure. 12. Radiation protection chamber (1) according to claim 10,wherein a beam annihilator (95) is arranged in forward direction.