Abstract:Waveguide structures and couplers for x rays are analyzed. Experimental results are given for the propagation of Cu Ka radiation in guides made of BN.
“…While waveguide (WG) optics is ubiquitous in the visible and infrared spectral range, it is still much less developed in the x-ray regime, despite some encouraging initial work on planar x-ray WGs [1,2,3,4,5,6,7,8]. This is for a good reason.…”
“…While waveguide (WG) optics is ubiquitous in the visible and infrared spectral range, it is still much less developed in the x-ray regime, despite some encouraging initial work on planar x-ray WGs [1,2,3,4,5,6,7,8]. This is for a good reason.…”
“…The modes of radiation propagation in a waveguide are revealed at interference between the incident and reflected EPJ Web of Conferences 167, 01002 (2018) https://doi.org/10.1051/epjconf/201816701002 PPLA 2017 waves forming a standing wave pattern [59]. However, it becomes constructive just for specific angles.…”
Section: X-ray and Neutron Channeling In Micro-and Nanoguidesmentioning
confidence: 99%
“…Some types of processes based on the self-organization of materials that have recently attracted considerable interest because of the possibility of preparing fine patterns of nanometer dimensions over larger areas, can be used for the fabrication of X-ray waveguides [59,60]. Among them the formation of highly-ordered aligned carbon nanotubes and ordered arrays of uniform-sized porous in alumina is of great interest.…”
Section: X-ray and Neutron Channeling In Micro-and Nanoguidesmentioning
confidence: 99%
“…Among them the formation of highly-ordered aligned carbon nanotubes and ordered arrays of uniform-sized porous in alumina is of great interest. X-ray propagation in nanochannels [59] is important due to potential applications in Xray optics. A special feature of these structures is a long, hollow, inner cavity, which could act as a channel for selective radiation penetration, similar to channeling of charged particles in crystals (see [18] and Refs.…”
Section: X-ray and Neutron Channeling In Micro-and Nanoguidesmentioning
Abstract. Channeling is the phenomenon well known in the world mostly related to the motion of the beams of charged particles in aligned crystals. However, recent studies have shown the feasibility of channeling phenomenology application for description of other various mechanisms of interaction of charged as well as neutral particle beams in solids, plasmas and electromagnetic fields covering the research fields from crystal based undulators, collimators and accelerators to capillary based X-ray and neutron optical elements. This brief review is devoted to the status of channeling-based researches at different centers within international and national collaborations. Present and future possible developments in channeling tools applied to electron interactions in strong plasma and laser fields will be analyzed.
“…Progress within the fields of nanotechnology and X-ray propagation will be mutually beneficial. For instance, some types of processes based on the self-organization of materials that have recently attracted considerable interest because of the possibility of preparing fine patterns of nanometer dimensions over larger areas, can be used for the fabrication of X-ray waveguides [1,2]. Among them the formation of highlyordered aligned carbon nanotubes and ordered arrays of uniform-sized porous in anodic alumina is of great interest.…”
The question on X-ray extreme focusing (smallest reachable spot size) brings us to the idea for using the wave features of X-ray propagation in media. As known, wave features are revealed at propagation in ultra-narrow collimators as well as at glancing reflection from smooth flat and/or strongly curved surfaces. All these phenomena can be described within the general formalism of X-ray channeling.
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