Difference between revisions of "X-ray absorption & fluorescence"

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Alternatively ''Attenuation Length'' is defined as the distance into a material where the x-ray beam intensity has decreased to 1 / e, or about 63% of the incident beam.  The X-ray beam intensity at depth x into a material is calculated by Beer-Lambert law:
Alternatively ''Attenuation Length'' is defined as the distance into a material where the x-ray beam intensity has decreased to 1 / e, or about 63% of the incident beam.  The X-ray beam intensity at depth x into a material is calculated by Beer-Lambert law:
   
   
<math>
<math>
  \operatorname{erfc}(x) =
\operatorname{erfc}(x) =
  \frac{2}{\sqrt{\pi}} \int_x^{\infty} e^{-t^2}\,dt =
\frac{2}{\sqrt{\pi}} \int_x^{\infty} e^{-t^2}\,dt =
  \frac{e^{-x^2}}{x\sqrt{\pi}}\sum_{n=0}^\infty (-1)^n \frac{(2n)!}{n!(2x)^{2n}}
\frac{e^{-x^2}}{x\sqrt{\pi}}\sum_{n=0}^\infty (-1)^n \frac{(2n)!}{n!(2x)^{2n}}
</math>
</math>




Revision as of 23:49, 28 August 2011

X-ray Absorption Information (11BM page) http://11bm.xor.aps.anl.gov/absorption.html


Absorption Length

Alternatively Attenuation Length is defined as the distance into a material where the x-ray beam intensity has decreased to 1 / e, or about 63% of the incident beam. The X-ray beam intensity at depth x into a material is calculated by Beer-Lambert law:

<math> 

\operatorname{erfc}(x) =
\frac{2}{\sqrt{\pi}} \int_x^{\infty} e^{-t^2}\,dt =
\frac{e^{-x^2}}{x\sqrt{\pi}}\sum_{n=0}^\infty (-1)^n \frac{(2n)!}{n!(2x)^{2n}}

</math>


I(x) = e^(-x/lambda)

ln(1/e) = ln(e ^-x/lambda)

1 = x/Lambda

1/lamda = x

1/mu = x


Links

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