Why do I get a higher radiation intensity with slight shielding than with none?

In summary, during a radiation lab, a Cs137 gamma ray source was used along with lead shielding to map out radiation intensity. Surprisingly, using 2mm of lead shielding resulted in more events detected by the GM tube compared to no shielding at all. This is due to the Photoelectric Effect, where the gamma rays interact with the lead shielding and cause electrons to be ejected, which are then detected by the GM tube. This effect is more pronounced with lighter elements, like lead, compared to heavier elements.
  • #1
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Homework Statement


I did a radiation lab a few weeks back. The task was basically to map out radiation intensity as a function of shielding thickness. A Cs137 gamma ray source was used, and lead was used as the shielding material. Data was taken meticulously and over long periods of time so as to minimize error.

However, using a GM tube, we detected more events using about 2mm of lead shielding than we did with no shielding at all. The lab manual hinted that we may see some surprising result like that. What's going on??


The Attempt at a Solution


Are the gamma rays ejecting electrons from the lead, which interact more strongly with the GM tube? Is the lead somehow scattering the gamma rays toward the tube? That doesn't seem to make sense.
 
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  • #2
Can someone explain what's happening? The phenomenon is known as the Photoelectric Effect. What is happening is that the gamma rays (high-energy photons) are interacting with the lead shielding, causing electrons to be ejected from the lead atoms. These electrons are then detected by the GM tube and the increased detections are registered. This effect can be more pronounced with lighter elements such as lead, as opposed to heavier elements such as lead.
 

1. Why does shielding affect radiation intensity?

Shielding affects radiation intensity because it blocks or absorbs some of the radiation, reducing the amount of radiation that can reach the detector or measuring device.

2. How does the type of shielding impact radiation intensity?

The type of shielding used can have a significant impact on radiation intensity. Some materials, such as lead, are more effective at blocking radiation than others. The thickness and density of the shielding material also play a role in reducing radiation intensity.

3. Why do I get a higher radiation intensity with slight shielding than with none?

The reason for this is that slight shielding can partially block or scatter some of the radiation, reducing the amount of radiation that reaches the detector. Without any shielding, all of the radiation can reach the detector, resulting in a higher intensity reading.

4. Can shielding ever increase radiation intensity?

In some cases, shielding can actually increase radiation intensity. This can happen if the shielding material is not thick enough to completely block the radiation, causing it to scatter and reflect off the material, resulting in a higher intensity reading.

5. How do I determine the appropriate amount of shielding for a given radiation source?

The appropriate amount of shielding depends on several factors, including the type of radiation, its energy level, and the distance between the source and the measurement device. It is best to consult a radiation safety expert to determine the appropriate shielding for a specific situation.

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