Patent Number: 054323495
Section: claims

1. An apparatus for imaging a source of radiation, comprising: a first grid operatively arrangable in proximity to the source, having at least one first subgrid element having approximately parallel, equally-spaced linear first ribs including a material opaque to the radiation, and having first radiation-transparent regions alternating with the first ribs, which are transparent to the radiation; and  a second grid operatively arranged in proximity to the first grid, having at least one second subgrid element corresponding to the at least one first subgrid element and which is larger than the at least one first subgrid element, the at least one second subgrid element having second ribs which are approximately parallel, equally-spaced linear second ribs including a material opaque to the radiation, and having second radiation-transparent regions alternating with the second ribs, which are transparent to the radiation;  wherein each at least one first subgrid element and its corresponding at least one second subgrid element define a subgrid system, and wherein a spacing of the first ribs defines a spatial frequency of a Fourier component of the radiation detected by the subgrid system.  a first grid operatively arrangable in proximity to the source, having at least one first subgrid element having approximately parallel, equally-spaced linear first ribs including a material opaque to the radiation, and having first radiation-transparent regions alternating with the first ribs, which are transparent to the radiation; and  a second grid operatively arranged in proximity to the first grid, having at least one second subgrid element corresponding to the at least one first subgrid element and which is larger than the at least one first subgrid element, the at least one second subgrid element having second ribs which are approximately parallel, equally-spaced linear second ribs including a material opaque to the radiation, and having second radiation-transparent regions alternating with the second ribs, which are transparent to the radiation;  wherein each at least one first subgrid element and its corresponding at least one second subgrid element define a subgrid system, and wherein an angular orientation of the first and second ribs relative to a reference coordinate system defines an angular orientation of a Fourier component of the radiation detected by the subgrid system.  a first grid operatively arrangable in proximity to the source, having at least one first subgrid element having approximately parallel, equally-spaced linear first ribs including a material opaque to the radiation, and having first radiation-transparent regions alternating with the first ribs, which are transparent to the radiation; and  a second grid operatively arranged in proximity to the first grid, having at least one second subgrid element corresponding to the at least one first subgrid element and which is larger than the at least one first subgrid element, the at least one second subgrid element having second ribs which are approximately parallel, equally-spaced linear second ribs including a material opaque to the radiation, and having second radiation-transparent regions alternating with the second ribs, which are transparent to the radiation;  wherein each at least one first subgrid element and its corresponding at least one second subgrid element define a subgrid system, further comprising:  a position-sensitive detector operatively arranged in proximity to the second grid, having at least one detector element for receiving the radiation which passes through the subgrid system, and for generating a signal based on the radiation which passes through the subgrid system;  wherein the signal indicates an amplitude of a Fourier component detected by the subgrid system.  a first grid operatively arrangable in proximity to the source, having at least one first subgrid element having approximately parallel, equally-spaced linear first ribs including a material opaque to the radiation, and having first radiation-transparent regions alternating with the first ribs, which are transparent to the radiation; and  a second grid operatively arranged in proximity to the first grid, having at least one second subgrid element corresponding to the at least one first subgrid element and which is larger than the at least one first subgrid element, the at least one second subgrid element having second ribs which are approximately parallel, equally-spaced linear second ribs including a material opaque to the radiation, and having second radiation-transparent regions alternating with the second ribs, which are transparent to the radiation;  wherein each at least one first subgrid element and its corresponding at least one second subgrid element define a subgrid system, further comprising:  a position-sensitive detector operatively arranged in proximity to the second grid, having at least one detector element for receiving the radiation which passes through the subgrid system, and for generating a signal based on the radiation which passes through the subgrid system;  wherein the signal indicates a phase of a Fourier component detected by the subgrid system.  a first grid operatively arrangable in proximity to the source, having at least one first subgrid element having approximately parallel, equally-spaced linear first ribs including a material opaque to the radiation, and having first radiation-transparent regions alternating with the first ribs, which are transparent to the radiation; and  a second grid operatively arranged in proximity to the first grid, having at least one second subgrid element corresponding to the at least one first subgrid element and which is larger than the at least one first subgrid element, the at least one second subgrid element having second ribs which are approximately parallel, equally-spaced linear second ribs including a material opaque to the radiation, and having second radiation-transparent regions alternating with the second ribs, which are transparent to the radiation;  wherein each at least one first subgrid element and its corresponding at least one second subgrid element define a subgrid system, further comprising:  a position-sensitive detector operatively arranged in proximity to the second grid, having at least one detector element for receiving the radiation which passes through the subgrid system, and for generating a signal based on the radiation which passes through the subgrid system;  wherein the signal indicates an image of the radiation intensity distribution of the source in spatial frequency domain, further comprising:  a processor operatively coupled to receive the signal, for computing an image of the radiation intensity distribution of the source in spatial domain from the image of the radiation intensity distribution indicated by the signal.  a memory operatively coupled to the processor, for storing at least one of the image in spatial frequency domain and the image in spatial domain.  a display unit operatively coupled to the processor, for displaying at least one of the image in spatial frequency domain and the image in spatial domain.  a first grid operatively arrangable in proximity to the source, having at least one first subgrid element having approximately parallel, equally-spaced linear first ribs including a material opaque to the radiation, and having first radiation-transparent regions alternating with the first ribs, which are transparent to the radiation; and  a second grid operatively arranged in proximity to the first grid, having at least one second subgrid element corresponding to the at least one first subgrid element and which is larger than the at least one first subgrid element, the at least one second subgrid element having second ribs which are approximately parallel, equally-spaced linear second ribs including a material opaque to the radiation, and having second radiation-transparent regions alternating with the second ribs, which are transparent to the radiation;  wherein the first and second grids are for use in generating an image of a radiation intensity distribution of the source in spatial frequency domain which can be Fourier-transformed into an image of a radiation intensity distribution in spatial domain having a predetermined spatial resolution, a spacing of the first ribs of the at least first subgrid element which has a smallest rib spacing being spaced by approximately twice the predetermined spatial resolution.  a first grid operatively arrangable in proximity to the source, having at least one first subgrid element having approximately parallel, equally-spaced linear first ribs including a material opaque to the radiations and having first radiation-transparent regions alternating with the first ribs which are transparent to the radiation; and  a second grid operatively arranged in proximity to the first grid, having at least one second subgrid element corresponding to the at least one first subgrid element and which is larger than the at least one first subgrid element, the at least one second subgrid element having second ribs which are approximately parallel, equally-spaced linear second ribs including a material opaque to the radiation, and having second radiation-transparent regions alternating with the second ribs, which are transparent to the radiation;  wherein the first grid includes silicon;  wherein the first radiation-transparent regions are formed by making a thickness of the silicon in the at least one first subgrid element sufficiently thin to produce translucency to the radiation.  a first grid operatively arrangable in proximity to the source, having at least one first subgrid element having approximately parallel, equally-spaced linear first ribs including a material opaque to the radiation, and having first radiation-transparent regions alternating with the first ribs, which are transparent to the radiation; and  a second grid operatively arranged in proximity to the first grid, having at least one second subgrid element corresponding to the at least one first subgrid element and which is larger than the at least one first subgrid element, the at least one second subgrid element having second ribs which are approximately parallel, equally-spaced linear second ribs including a material opaque to the radiations, and having second radiation-transparent regions alternating with the second ribs, which are transparent to the radiation;  wherein the at least one first subgrid has a first predetermined number n of first ribs, n being a positive integer, and the at least one second subgrid has a second predetermined number n+m of second ribs, m being a positive integer;  wherein a distance from the source to the first grid is D, and a distance from the source to the second grid is L, and the second ribs are spaced by a factor of (L/D).multidot.{n/(n+m)} times a spacing of the first ribs.  a first grid operatively arrangable in proximity to the source, having at least one first subgrid element having approximately parallel, equally-spaced linear first ribs including a material opaque to the radiation, and having first radiation-transparent regions alternating with the first ribs, which are transparent to the radiation; and  a second grid operatively arranged in proximity to the first grid, having at least one second subgrid element corresponding to the at least one first subgrid element and which is larger than the at least one first subgrid element, the at least one second subgrid element having second ribs which are approximately parallel, equally-spaced linear second ribs including a material opaque to the radiation, and having second radiation-transparent regions alternating with the second ribs, which are transparent to the radiation;  wherein the first grid includes a first Fresnel zone plate which is operatively adapted to align the first and second grids.  a first grid operatively arrangable in proximity to the source, having at least one first subgrid element having approximately parallel, equally-spaced linear first ribs including a material opaque to the radiation, and having first radiation-transparent regions alternating with the first ribs, which are transparent to the radiation; and  a second grid operatively arranged in proximity to the first grid, having at least one second subgrid element corresponding to the at least one first subgrid element and which is larger than the at least one first subgrid element, the at least one second subgrid element having second ribs which are approximately parallel, equally-spaced linear second ribs including a material opaque to the radiation, and having second radiation-transparent regions alternating with the second ribs, which are transparent to the radiation;  wherein a spacing d.sub.1 of the first ribs satisfies a relationship d.sub.1.sup.2 &gt;.lambda..multidot.L/2, in which .lambda. is a longest wavelength of the radiation, and L is a distance from the source to the second grid.  a first grid operatively arrangable in proximity to the source, having at least one first subgrid element which has approximately parallel, equally-spaced first ribs including a material opaque to the radiation, and having first radiation-transparent regions alternating with the first ribs, which are transparent to the radiation, the at least one first subgrid element being effective to cause the generating of an image of a radiation intensity distribution of the source in spatial frequency domain which can be Fourier-transformed into an image of a radiation intensity distribution in spatial domain having a predetermined spatial resolution, a spacing of the first ribs of the at least first subgrid element which has a smallest rib spacing being spaced by approximately twice the predetermined spatial resolution. 2. An apparatus for imaging a source of radiation, comprising: 3. An apparatus for imaging a source of radiation, comprising: 4. An apparatus for imaging a source of radiation, comprising: 5. An apparatus for imaging a source of radiation, comprising: 6. An apparatus as claimed in claim 5, further comprising: 7. An apparatus as claimed in claim 5, further comprising: 8. An apparatus for imaging a source of radiation, comprising: 9. An apparatus as claimed in claim 8, wherein an average energy of the radiation is greater than or equal to two kiloelectron-volts (keV). 10. An apparatus for imaging a source of radiation, comprising: 11. An apparatus for imaging a source of radiation, comprising: 12. An apparatus for imaging a source of radiation, comprising: 13. An apparatus for imaging a source of radiation, comprising: 14. An apparatus for imaging a source of radiation, comprising: