X-ray microtomography: Difference between revisions
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== X-ray_microtomography == | |||
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File:Buckelzirpe.webm|Buckelzirpe | |||
File:3D_rendering_of_a_micro_CT_scan_of_a_piece_of_dried_leaf..ogv|3D rendering of a micro CT scan of a piece of dried leaf | |||
File:Micro_CT_analysis_of_Ti2AlC_and_Al_composite.gif|Micro CT analysis of Ti2AlC and Al composite | |||
File:Micro-CT_model_of_radiolarian,_Triplococcus_acanthicus.png|Micro-CT model of radiolarian, Triplococcus acanthicus | |||
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Latest revision as of 21:29, 20 February 2025
X-ray microtomography (also known as XMT or Micro-CT) is a technology used to visualize the internal structure of objects non-destructively. This technique is based on the same principles as CT scans but on a smaller scale with greatly increased resolution.
Overview[edit]
X-ray microtomography is a form of X-ray imaging, where the X-rays are diffracted by the object being imaged. The diffracted X-rays are then detected and processed to create a 3D image of the object's internal structure. This technique is particularly useful in the field of materials science, where it can be used to examine the internal structure of materials in great detail.
Applications[edit]
X-ray microtomography has a wide range of applications in various fields. In medicine, it is used to examine small areas of the body in great detail, such as the inner ear or small blood vessels. In geology, it can be used to examine the internal structure of rocks and minerals. In archaeology, it can be used to examine the internal structure of artifacts without damaging them.
Advantages and Disadvantages[edit]
The main advantage of X-ray microtomography is that it allows for the non-destructive examination of the internal structure of objects. This means that the object being examined does not need to be cut or otherwise damaged in order to be studied. However, this technique does have some limitations. For example, it can only be used to examine objects that are small enough to fit within the imaging chamber. Additionally, the resolution of the images produced by this technique is limited by the size of the X-ray source and the detector.
