X-Ray Nanophotonics Based on Planar X-Ray Waveguide-Resonator

This chapter is devoted to a systematic investigation of the waveguide slit width influence on the particularities of X-ray propagation, study of specific conditions that allowed to manipulate the flux parameters, presentation of a model, the main features of the waveguide-resonance mechanism, and description of the beam use formed by such devices. The phasing effect allows the transport of X-ray flux by the planar double reflector unit with small attenuation owing to minimization of energy losses at the recurrent excitation of reflector volumes. X-ray nanophotonics development on the basis of the planar X-ray waveguides resonators (PXWR) design modification showed that it is possible by traditional way and through discovery of early uncertain effects. The integral intensity of a beam formed by PXWR equipped by the skewed concentrator is higher in comparison with the intensity of a beam on the output of the simple waveguide-resonator.