Another excellent video! A dedicated segment on the dispersive element in monochromators would be highly valuable. I’m particularly interested in understanding the mechanism by which the prism or diffraction grating refracts or diffracts light at different angles according to wavelength. In essence, shorter wavelengths bend at different angles than longer ones, but I would love to see a detailed explanation of this process, ideally with schematic illustrations.
This is an excellent topic, and I thoroughly enjoyed it! X-ray technology has led to modern Non-Destructive Testing (NDT), allowing industries like aerospace and automotive to inspect materials and components for internal defects without causing any damage, thereby ensuring quality and safety. These technologies are continually advancing, incorporating cutting-edge computing and AI to improve image quality, speed, and safety, making X-ray applications even more efficient and insightful across various fields. As someone passionate about AI, I’m also keen to understand the fundamentals of X-ray technology.
This is a long impression of yours. MAY will try our best to upload the technical video spreading out the knowledge. Thank a lot for your huge interest.
I’d be nervous too. The difference is, I’d probably forget my own name, start sweating like a waterfall, and maybe even throw in a dramatic faint for good measure!
If you might throw what we need to do before X-ray testing, do not worry about the filtration. It is because the system is already there installed. Hope my answer will be closed to your question. Thank you for your question.
Another excellent video! A dedicated segment on the dispersive element in monochromators would be highly valuable. I’m particularly interested in understanding the mechanism by which the prism or diffraction grating refracts or diffracts light at different angles according to wavelength. In essence, shorter wavelengths bend at different angles than longer ones, but I would love to see a detailed explanation of this process, ideally with schematic illustrations.
Regarding your comment, MAY will try to make some video to explain what MAY knows. Thank a lot for the good point.
Brilliant way on how to separate K alpha and beta! thank you, MAY!
Our pleasure!
This is really informative~
Thanks a lot.
Thank you for the explanation, Professors!
You are welcome! MAY will make more effort on the next video.
Finally, we got the answer!
Yes, this is the answer of the former video.
easy to understand. Thank you for your knowledge.... semangat. fighting......
Thank you, MAY will do.
Although I know the answer beforehand, but the explanation is clear and easy to understand!
Thank you for your comment.
The filtration significantly decrease the intensity of Kbeta from 7 to 500 times lower is mindblowing
But, the light becomes dark. So, that is why we need to make it brighter than before.
This is an excellent topic, and I thoroughly enjoyed it! X-ray technology has led to modern Non-Destructive Testing (NDT), allowing industries like aerospace and automotive to inspect materials and components for internal defects without causing any damage, thereby ensuring quality and safety. These technologies are continually advancing, incorporating cutting-edge computing and AI to improve image quality, speed, and safety, making X-ray applications even more efficient and insightful across various fields. As someone passionate about AI, I’m also keen to understand the fundamentals of X-ray technology.
This is a long impression of yours. MAY will try our best to upload the technical video spreading out the knowledge. Thank a lot for your huge interest.
I’d be nervous too. The difference is, I’d probably forget my own name, start sweating like a waterfall, and maybe even throw in a dramatic faint for good measure!
Thank you for your interest.
The X-ray arch has finally been completed. I am curious to see which arch will be developed next.
Oh, this is the end of X-ray generation part. Still in X-ray course, the most important lecture in Science and Engineering.
Thank you
Thank you for your comment.
ou are all soo smart
Thanks for your comment.
The answer from the previous video has been revealed!!
Right!
The materials for monochromator should be from single crystal, Profs?
You are right. That must be a single crystal that allows the X-ray beam to be a unity via Bragg's law.
Could you elaborate on how we do the filtration?
If you might throw what we need to do before X-ray testing, do not worry about the filtration. It is because the system is already there installed. Hope my answer will be closed to your question. Thank you for your question.
bagus sekali penjelasannya!
Thanks for your message.