Difference between revisions of "Absorption length"

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(Energy dependence)
(Elemental/Energy dependence)
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==Elemental/Energy dependence==
 
==Elemental/Energy dependence==
[[Image:Elements2D-abs.png|400px]][[Image:Elements2D-nu.png|400px]]
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[[Image:Elements2D-abs.png|400px]][[Image:Elements2D-mu.png|400px]]
  
 
==Related forms==
 
==Related forms==

Revision as of 11:29, 9 June 2014

The absorption length or attenuation length in x-ray scattering is the distance over which the x-ray beam is absorbed. By convention, the absorption length ϵ is defined as the distance into a material where the beam flux has dropped to 1/e of its incident flux.

Absorption

The absorption follows a simple Beer-Lambert law:

The attenuation coefficient (or absorption coefficient) is simply the inverse of the absorption length;

Calculating

The absorption length arises from the imaginary part of the atomic scattering factor, f2. It is closely related to the absorption cross-section, and the mass absorption coefficient. Specifically, the atomic photoabsorption cross-section can be computed via:

Where λ is the x-ray wavelength, and re is the classical electron radius. The attenuation coefficient is given by:

where ρ is density, Na is the Avogadro constant, and ma is the atomic molar mass. Note that the mass attenuation coefficient is simply .

Elemental dependence

Elements-abs.pngElements-mu.png

Energy dependence

Notice that the absorption undergoes sharp increases when passing through an absorption edge.

Examples

silicon

Silicon-AttLen.pngSilicon-mu.png

gold

Gold-AttLen.pngGold-mu.png

Elemental/Energy dependence

Elements2D-abs.pngElements2D-mu.png

Related forms

As can be seen, there are many related quantities which express the material's absorption:

  • Absorption length , the distance over which the intensity falls to 1/e.
  • Attenuation coefficient , the characteristic inverse-distance for attenuation.
  • Mass attenuation coefficient , the density-scaled attenuation.
  • Absorptive atomic scattering factor , the intrinsic dissipative interaction of the material.
  • Atomic photoabsorption cross-section , the cross-section ('effective size') of the atom's x-ray absorption (capture) efficiency.
  • Imaginary refractive index , the resonant component of the refractive index.
  • Imaginary Scattering Length Density , the absorptive component of the scattering contrast.

See Also