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Multi-Modal X-Ray Microscope and Micro-CT with Bragg Magnifier Based on Rigaku X-Ray Generator
Daniele Pelliccia from RMIT University, in partnership with researchers from Germany and the Slovak Academy of Sciences have built a laboratory-based multi-modal X-ray Microscopy and micro-CT with Bragg magnifier based on a Rigaku X-ray generator.
By: AXT Pty Ltd
At the heart of the system is a Rigaku FRE+ rotating anode X-ray generator high brightness X-ray source. Out of the box, the FRE+ has a focal spot size in the order of 80 to 100µm and is not generally suited used imaging applications. However, Daniele and his colleagues designed a novel optics system that magnifies the X-ray beam acting as X-ray zoom lens, resulting in an increase in resolution. While the optic is somewhat complex, it actually adds an additional level of flexibility to the system.
The optic itself consists of two channel-cut crystals in asymmetric diffraction. This produces an X-ray beam that is magnified by 15X and highly collimated that is suited to high-resolution imaging. Furthermore, thanks to the Rigaku FRE+, the system is suited to imaging weak, radiation damage sensitive samples. The Bragg magnifier optic is able to generate quantitative data for analyses such as:
- Microstructure determination
- 3D Computed Tomography or micro-CT
- Small angle scattering directionality
It performs these functions being sensitive to X-ray attenuation, refraction as towel as X-ray scattering. Due to the fact that the Bragg Magnifier requires an intense X-ray beam to perform, a sealed tube type X-ray source is simply not powerful enough, nor is it able to generate high enough sensitivity.
The system is also able to operate as a multi-modal X-ray microscope. In this guise, it can image in both bright field and dark field modes, which would not be possible using a sealed tube X-ray source. This imaging mode is somewhat similar to an optical microscope and is capable of revealing high levels of detail thanks to the large variations in contrast that it can produce.
In micro-CT mode, the system is able to image samples with a 5µm resolution, which rivals other commercially available systems.
In summary, the novel optic developed by these researchers has been able to extend the imaging capabilities of the high intensity X-ray source like the Rigaku FRE+ with large focal spot to create a high resolution X-ray microscope and micro-CT. The high flux rotating anode X-ray source is key to the system, with sealed tube X-ray sources not able to produce sufficient X-ray flux to efficiently use innovative optics to image specimens. This new experimental setup effectively brings synchrotron micro-imaging capabilities within the reach of laboratory researchers.
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Dr. Cameron Chai
+61 (0)2 9450 1359