Difference between revisions of "Americium 241"
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| − | Americium 241 emits alpha and gamma radiation. Am-241 has a half life of 432.2 years, by emitting alpha particles it turns into neptunium-237. Most of the radiation does not travel very far from the sample but at close range it is intense enought to affect electronic devices. Even small samples ionize the air around it, this effect is used in some smoke detectors. | + | Americium 241 emits alpha and gamma radiation. Am-241 has a half life of 432.2 years, by emitting alpha particles it turns into neptunium-237. |
| + | ;Average energy of most abundant emission: | ||
| + | :Gamma & X-rays - 0.05954 MeV | ||
| + | :Alpha - 5.49 MeV | ||
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| + | Most of the radiation does not travel very far from the sample but at close range it is intense enought to affect electronic devices. Even small samples ionize the air around it, this effect is used in some smoke detectors. | ||
The radiation caused a 74HCT14 Schmitt trigger to oscillate at a couple of cm distance. Most likely this was because the air becoming ionized by the radiation and conducting a weak current from an output pin to an input pin. | The radiation caused a 74HCT14 Schmitt trigger to oscillate at a couple of cm distance. Most likely this was because the air becoming ionized by the radiation and conducting a weak current from an output pin to an input pin. | ||
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| + | == Radiation detection with a CCD chip == | ||
| + | The reccomended method for detection of radiation from Am-241 is a ZnS scintillation counter but a CCD chip works quite well. | ||
This video shows how the radiation affects a CCD imaging chip covered with a glass plate. Hot pixels show up at random moments. This would be suitable for generating true random numbers. | This video shows how the radiation affects a CCD imaging chip covered with a glass plate. Hot pixels show up at random moments. This would be suitable for generating true random numbers. | ||
Revision as of 10:43, 10 March 2008
Americium 241 emits alpha and gamma radiation. Am-241 has a half life of 432.2 years, by emitting alpha particles it turns into neptunium-237.
- Average energy of most abundant emission
- Gamma & X-rays - 0.05954 MeV
- Alpha - 5.49 MeV
Most of the radiation does not travel very far from the sample but at close range it is intense enought to affect electronic devices. Even small samples ionize the air around it, this effect is used in some smoke detectors. The radiation caused a 74HCT14 Schmitt trigger to oscillate at a couple of cm distance. Most likely this was because the air becoming ionized by the radiation and conducting a weak current from an output pin to an input pin.
Radiation detection with a CCD chip
The reccomended method for detection of radiation from Am-241 is a ZnS scintillation counter but a CCD chip works quite well.
This video shows how the radiation affects a CCD imaging chip covered with a glass plate. Hot pixels show up at random moments. This would be suitable for generating true random numbers.
Fluorescence of phosphor
The radiation is capable of exiting phosphors found inside low energy light bulbs. The phosohor light up very dimly with a red colour. It is almost impossible to see with the naked eye. The eye is not capable of determining the colour but a long exposure photograph shows the colour well.
The material that is exited by the radiation is most likely europium-doped yttrium trioxide (Y2O3:Eu) with an emission band at 612 nm. Almost 10% of the radiation passes through the aluminium foil.
Filtered by 0.015 mm aluminium foil
