Schlieren-type radiography using a line source and focusing optics
First Claim
1. A system for forming an image of an object, said image including internal features of said object, said system comprising:
- means for generating a penetrating radiation beam;
said means for generating having one or more line origin(s) for generating said beam providing that said beam has high spatial purity along a narrow axis of said beam origin(s) and low spatial purity along a long axis of said beam origin(s);
a radiation imaging optic;
means for supporting said object to provide that said beam is directed through said object and through said radiation imaging optic;
said radiation imaging optic arranged to form at least a partial image of said object presented on a detector screen;
said partial image including at least one of phase and scattering content of said object'"'"'s internal features in a direction along one axis of said beam.
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Abstract
A system for observing the internal features of an object, such that the object'"'"'s internal absorption, refraction, reflection and/or scattering properties are visualized, is disclosed. An embodiment may include one or more beams of penetrating radiation, an object with internal features to be imaged, a single or an array of radiation optics, and a detection system for capturing the resultant shadowgraph images. The beam(s) of radiation transmitted through the object typically originate from a line-shaped source(s), which has high spatial purity along the narrow axis, and low spatial purity in the perpendicular, long axis. In the long axis, radiation optic(s) capture and focus diverging rays exiting from the object to form a high resolution image of the object, without which optic(s) the shadowgraph would have blurring in this axis. Such shadowgraph is naturally well defined in the opposite axis of narrow beam origin and can reveal an object'"'"'s refraction, reflection and/or scattering properties along that axis. An embodiment may also include discriminators (stops, phase shifters, analyzer crystals, etc.) in the beam exiting the object. An embodiment may also include mechanisms for scanning whereby a two-dimensional or three-dimensional image of a large object is made possible. An embodiment may also include an image of an object'"'"'s internal features being derived from an analysis of the radiation and/or radiation waveform exiting the object.
8 Citations
19 Claims
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1. A system for forming an image of an object, said image including internal features of said object, said system comprising:
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means for generating a penetrating radiation beam; said means for generating having one or more line origin(s) for generating said beam providing that said beam has high spatial purity along a narrow axis of said beam origin(s) and low spatial purity along a long axis of said beam origin(s); a radiation imaging optic; means for supporting said object to provide that said beam is directed through said object and through said radiation imaging optic; said radiation imaging optic arranged to form at least a partial image of said object presented on a detector screen; said partial image including at least one of phase and scattering content of said object'"'"'s internal features in a direction along one axis of said beam. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A system for displaying an image of at least one phase related and absorption related features of an object, said system comprising;
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line origin means for projecting a radiation beam; monochromator crystals arranged for diffracting said radiation beam in the narrow axis of said line origin; means for supporting said object to permit transmitting said beam through said object; a radiation imaging optic; means for generating an image from said image signal and enabling a viewer to analyze said image for phase and absorption related features in one axis of said object.
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9. A system for displaying an image of at least one phase related and absorption related features of an object, said system comprising;
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line origin means for projecting a radiation beam; monochromator crystals arranged for diffracting said radiation beam in the narrow axis of said line origin; means for supporting said object to permit transmitting said beam through said object; a structured multilayer analyzer arranged to receive a portion of said transmitted beam at an angle of incidence whereby all rays not deviated by features of the object are not allowed to reflect; a radiation imaging optic; means for transmitting said portion of said beam from said structured multilayer analyzer through said radiation imaging optic;
to generate an image signal;means for generating an image from said image signal and enabling a viewer to analyze said image for phase and scattering related features in said object, with absorption related features suppressed.
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10. A system for displaying an image of at least one phase related and absorption related features of an object, said system comprising;
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line origin means for projecting a radiation beam; monochromator crystals arranged for diffracting said radiation beam; means for supporting said object to permit transmitting said beam through said object; a crystal analyzer arranged to receive a portion of said transmitted beam at an angle of incidence; a radiation imaging optic; means for transmitting said portion of said beam from said crystal analyzer through said radiation imaging optic;
to generate an image signal;means for generating an image from said image signal and enabling a viewer to analyze said image for phase and absorption related features in said object. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17)
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18. A system for deriving an image of at least one phase related feature of an object, said system comprising;
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A first array of near identical radiation one-dimensional focusing optics, and a second array of near identical radiation one-dimensional focusing optics set at ninety degrees to said first array; said first array of radiation one-dimensional focusing optics aligned parallel to the long axis of beam origin; said first array of radiation one-dimensional focusing optics positioned such that the detector is at a distance exactly the equal the focal length of radiation one-dimensional focusing optics; said detector having a greater number of resolution elements than the total number of radiation one-dimensional focusing optics in said first array; said resolution elements being segregated to detect a line focus of radiation from only one radiation focusing optic in said first array; said resolution elements measuring the effect of radiation beam phase change generated by said refractive properties of said internal features of said object by associated change in position of portions of said line focus of radiation; said second array of near identical radiation one-dimensional focusing optics aligned perpendicular to the long axis of beam origin; said second array of radiation one-dimensional focusing optics positioned such that the detector is at a distance such that an image of the object is produced in one line on the detector, with individual segments of said line capturing transmitted radiation from individual portions of said object; a calculation performed on said measured effects determining the distortion of the radiation wavefront; an image of one axis of object'"'"'s internal refraction properties being derived from a Shack-Hartmann analysis of said distorted radiation wavefront. - View Dependent Claims (19)
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Specification