Difference between revisions of "Gamma Spectroscopy (NORM and TENORM)"

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N = number of nuclides<br> D = disintegration rate (Bq, Ci, dimension s-1)<br> A = activity is disintegration rate D per unit of volume or unit of mass (dimension s-1)<br> &nbsp; &nbsp; We distinguish between two notions:<br> &nbsp; &nbsp; As(i) = specific activity is activity per unit of mass of that particular element the actual<br>&nbsp; &nbsp; &nbsp; radionuclide i belongs to. This notion is also used to express the activity of a<br>&nbsp; &nbsp; &nbsp; particular radiolabelled molecule in relation to the total mass of the same molecule<br> &nbsp; &nbsp; &nbsp; (labelled and unlabelled) in the sample (for instance when the inactive molecule is present<br> &nbsp; &nbsp; &nbsp; as a carrier).<br> &nbsp; &nbsp; Ac(i) = activity concentration is the activity of a special radionuclide ''i'' or all present<br> &nbsp; &nbsp; &nbsp; radionuclides (AcT = Ac(i) = total aktivity) per unit of volume or unit of weight of a radioactive<br> &nbsp; &nbsp; &nbsp; sample.<br> N,D and A may, in addition, have an index t (i.e. N<sub>t</sub>, D<sub>t</sub> and A<sub>t</sub>). This denotes the parameter values at time t relative to a starting time t = 0. R = counting rate (cps, cpm or generally cpt where t should be defined, dimention s-1) S = number of counts  
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N = &nbsp; number of nuclides<br> D &nbsp; = disintegration rate (Bq, Ci, dimension s-1)<br> A &nbsp; = activity is disintegration rate D per unit of volume or unit of mass (dimension s-1)<br> &nbsp; &nbsp; We distinguish between two notions:<br> &nbsp; &nbsp; As(i) = specific activity is activity per unit of mass of that particular element the actual<br>&nbsp; &nbsp; &nbsp; radionuclide i belongs to. This notion is also used to express the activity of a<br>&nbsp; &nbsp; &nbsp; particular radiolabelled molecule in relation to the total mass of the same molecule<br> &nbsp; &nbsp; &nbsp; (labelled and unlabelled) in the sample (for instance when the inactive molecule is present<br> &nbsp; &nbsp; &nbsp; as a carrier).<br> &nbsp; &nbsp; Ac(i) = activity concentration is the activity of a special radionuclide ''i'' or all present<br> &nbsp; &nbsp; &nbsp; radionuclides (AcT = Ac(i) = total aktivity) per unit of volume or unit of weight of a radioactive<br> &nbsp; &nbsp; &nbsp; sample.<br>
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 +
N,D and A may, in addition, have an index t (i.e. N<sub>t</sub>, D<sub>t</sub> and A<sub>t</sub>). This denotes the parameter values at time t relative to a starting time t = 0.<br>
 +
R = &nbsp; counting rate (cps, cpm or generally cpt where t should be defined, dimention s<sup>-1</sup>)<br> S = &nbsp; number of counts  
  
 
N, D, A, R and S may, in addition, have indexes B = background, T = total or N = net. The relations between them are: RN = RT - RB and SN = ST - SB. Other indexes may also be used, for instance SCr-51 in order to separate from SFe-59.
 
N, D, A, R and S may, in addition, have indexes B = background, T = total or N = net. The relations between them are: RN = RT - RB and SN = ST - SB. Other indexes may also be used, for instance SCr-51 in order to separate from SFe-59.

Revision as of 15:16, 20 June 2012

N =   number of nuclides
D   = disintegration rate (Bq, Ci, dimension s-1)
A   = activity is disintegration rate D per unit of volume or unit of mass (dimension s-1)
    We distinguish between two notions:
    As(i) = specific activity is activity per unit of mass of that particular element the actual
      radionuclide i belongs to. This notion is also used to express the activity of a
      particular radiolabelled molecule in relation to the total mass of the same molecule
      (labelled and unlabelled) in the sample (for instance when the inactive molecule is present
      as a carrier).
    Ac(i) = activity concentration is the activity of a special radionuclide i or all present
      radionuclides (AcT = Ac(i) = total aktivity) per unit of volume or unit of weight of a radioactive
      sample.

N,D and A may, in addition, have an index t (i.e. Nt, Dt and At). This denotes the parameter values at time t relative to a starting time t = 0.
R =   counting rate (cps, cpm or generally cpt where t should be defined, dimention s-1)
S =   number of counts

N, D, A, R and S may, in addition, have indexes B = background, T = total or N = net. The relations between them are: RN = RT - RB and SN = ST - SB. Other indexes may also be used, for instance SCr-51 in order to separate from SFe-59.