Patent Number: 
Section: claims

1. A nuclear radiation and nuclear particles guiding material comprising:a) a plurality of layers containing nanostructures, the nanostructures having the role to confine, guide and gyrate the nuclear radiation;b) a plurality of layers comprising piezo-electric, ferro electric or magneto-electric material that changes the direction of the guided nuclear radiation inside the guide as a function of an electric signal applied on said material;c) a plurality of layers having materials sensitive to the nuclear resonance of the radiation, wherein a selective nuclear radiation resonant absorber is formed therein andd) a plurality of layers, fabrics or inserts to increase the chemical or heat resistance, as well as the resistance to radiation with energy lower than that of x-ray radiation energy. 2. A radiation guiding material according to claim 1 made of a nano-structure that admits nuclear radiation and is steering it inside, guiding it, and releasing it in another direction. 3. A nuclear radiation guiding material according to claim 1 acting as a nuclear reflective layer made of a plurality of nano-cluster structures, connected in order to form an internally charged space to channel and guide the high frequency electromagnetic field along the channel by gyrating in a controlled manner. 4. A radiation guiding material according to claim 1 made of an entry atomic structure matched with the guiding structure, offering a hollow cavity able to admit nuclear radiation increasing the incidence admittance angle. 5. A radiation guiding material according to claim 1 comprising an assembly of wave-guide channels, admitting the radiation from a large incidence angles and sending it in a controlled direction in a narrow exit angle. 6. A radiation guiding material according to claim 1 made of at least one material sheet that channels the nuclear radiation coming from a preferred direction and exhibits normal attenuation properties for all other incidence angles. 7. A radiation guiding material according to claim 1, used to create nuclear radiation shielding. 8. A radiation guiding material according to claim 1 comprising a structure containing electro sensitive layers able to change the channeling structure according to an applied voltage to provide alternate exit possibilities depending on the control voltage. 9. A radiation guiding material according to claim 8 forming a controlled shielding panel applied to control the flux or energy harvesting in fission, fusion and mixed reactors, as in energy generation by nuclear means as annihilation. 10. A controlled radiation guiding material according to claim 8 forming a multi-nano-structured-layer nuclear radiation flow control device to be used for X and gamma, particle ray modulation-demodulation communication, and imaging systems. 11. A radiation guiding material according to claim 8 mounted to form a combined structure of radiation funneling and nano-focusing. 12. A controlled radiation guiding material according to claim 8 mounted in a combination of active, electronically controlled and passive nuclear guiding structures to enhance or replace the nuclear reactors criticality control mechanical rods that makes the neutron management and external shielding. 13. A radiation guiding material according to claim 1 made of an assembly of molecular wave-guide channels that grabs the radiation from a large incidence angles and sends it in a controlled angle to concentrate it. 14. A radiation guiding material according to claim 1 made of an assembly of nano-channeled structures that drives the radiation in different directions, the directions being electronically controlled or switched. 15. A radiation guiding material according to claim 1 made of an assembly of neutron channeling devices forming sectors with transmission or reflection controlled by a voltage to control the criticality of a nuclear reactor structure. 16. A radiation guiding material according to claim 1, made of an assembly of directive structures, used to admit and guide the radiation from an admittance solid angle towards a single point, used for imaging. 17. A radiation guiding material according to claim 1, fabricated as a material sheet, offering channeling properties for a preferred direction and normal attenuation properties for all other incidence angles. 18. A radiation guiding material according to claim 1 used in a combination as panel elements a to create a multi-layer gamma ray imaging device. 19. A radiation guiding material according to claim 1 mounted in a repetitive microstructure to be used for shielding of space shuttles, outposts, nuclear power generators on board.