Difference between revisions of "PAA Bibliography"
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<math>{197 \atop\; }Au (\gamma,p){196 \atop \; }Pt</math> | <math>{197 \atop\; }Au (\gamma,p){196 \atop \; }Pt</math> | ||
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| + | ===Activation Iridium=== | ||
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| + | There are two naturally occuring isotopes of Iridium (37% Ir-191, 63%Ir-193) | ||
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| + | ====Neutron knock out==== | ||
| + | <math>{191 \atop\; }Ir (\gamma,n){190 \atop \; }Ir</math> | ||
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| + | After 11.78 days Ir-190 electron captures to Os-190 (dominant decay) with the most intense line emission of 186.68 keV. | ||
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[PAA_Research] | [PAA_Research] | ||
Revision as of 22:49, 6 May 2013
NAA
Ancient Silver
File:Meyers Zelst Sayre BNL-21513.pdf This paper suggest that the gold and iridium content can be used to distinguish between Sasanian (Iran) coins and other silver coins.
Activating gold
Neutron knock out
Au-196 decays with a half life 6.183 days of by electron capture to Pt-196 92% of the time or the rest of the time it Beta decay to Hg-196
The highest relative intensity gamma ray has an energy of 333.03 keV after Au-196 undergoes electron capture. Pt-196 is stable.
If Pt-196 is in an excited state, then there are two lifetimes to de-excite of 8.1 seconds and 9.6 hours . For the 9.6 hours state then dominant intensities are a photon emission energies of 188.27 and 147.81 keV.
Proton Knockout
Activation Iridium
There are two naturally occuring isotopes of Iridium (37% Ir-191, 63%Ir-193)
Neutron knock out
After 11.78 days Ir-190 electron captures to Os-190 (dominant decay) with the most intense line emission of 186.68 keV.
[PAA_Research]