Characteristic X-rays: Direction of Emission?

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SUMMARY

Characteristic X-rays produced from an Iron sample do not emit in a random direction; however, their intensity is not isotropic. Studies indicate that the yield of X-rays can depend on the direction relative to different crystallographic planes when using single crystal targets. The emitted X-rays will mix with Bremsstrahlung radiation, resulting in a spectrum that varies based on the target material used. This information is crucial for understanding the directional properties of X-ray emission in experimental setups.

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  • Understanding of characteristic X-ray production
  • Familiarity with Bremsstrahlung radiation
  • Knowledge of crystallographic planes
  • Experience with experimental physics techniques
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  • Research the impact of crystallographic planes on X-ray yield
  • Study the principles of Bremsstrahlung radiation
  • Explore experimental setups for measuring X-ray emission directions
  • Investigate different target materials and their effects on X-ray spectra
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Physicists, researchers in materials science, and anyone conducting experiments involving X-ray emission and analysis.

fizikx
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Hello physics forum,

I'm running an experiment where characteristic x-ray are produced from an Iron sample, and I was just wondering if these x-rays are emitted in any random direction, or is there a "favored" direction they can be emitted in? Thank you in advance.

Neville.
 
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There have been some studies investigating dependence of yield on the direction relative to different crystallographic planes (i.e., on single crystal targets). I know the intensity is not isotropic, but don't remember much more than that. You'll have to search the literature with some of these keywords to find any numbers.
 
There is no particular direction of released X-rays after hitting the target(in your case iron). But the rays which are released on this interaction will mixed up with Bremsstrahlung(braking radiation) and released as a sprectrum. its depend on the material what you using at the target side.
hope this cleared for you. contact if you have further queries.
 
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Thread 'Unexpected irregular reflection signal from a high-finesse cavity'

I am observing an irregular, aperiodic noise pattern in the reflection signal of a high-finesse optical cavity (finesse ≈ 20,000). The cavity is normally operated using a standard Pound–Drever–Hall (PDH) locking configuration, where an EOM provides phase modulation. The signals shown in the attached figures were recorded with the modulation turned off. Under these conditions, when scanning the laser frequency across a cavity resonance, I expected to observe a simple reflection dip. Instead...
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