FIELD: measuring.
SUBSTANCE: invention relates to measurement of ionizing radiation. Nanostructured X-ray detector comprises anode-cathode electrodes, which are a dielectric film of anode aluminium dioxide with high specific resistance, in volume of which there are highly ordered close-packed parallel through nanopores filled with material with high conductivity, forming matrix of cone-shaped nanoanodes, connected by current-conducting strips of anode electrodes, orthogonal to current-conducting strips of cathode electrodes surrounding nanoanodes in frontal to input window surface of dielectric film, wherein the nanoanodes are located above the surface of the cathode electrodes and are insulated by a dielectric truncated cone of a porous aluminium dioxide layer.
EFFECT: faster operation and spatial resolution, reduced operating voltage and elimination of discharges in the field of gas amplification.
1 cl, 3 dwg
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