Does the Beer-Lambert Law Apply Differently in Active Environments?

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In summary: If the absorbing material is a liquid or a gas, the energy of the absorbed light is converted to light and heat.
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Physicsissuef
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Hi! I want to ask you something. Why on normal environments the [tex]\alpha > 0[/tex] (the coefficient of absorbtion) and in active environments where [itex]N_n > N_m[/itex], where [itex]N_n[/itex](the number of excited atoms) and [itex]N_m[/itex](the number of normal atoms) the coefficient of absorption is [tex]\alpha < 0[/tex]. I think in normal environments [tex]\alpha = 0[/tex]. !??
 
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  • #2
Physicsissuef said:
Hi! I want to ask you something. Why on normal environments the [tex]\alpha > 0[/tex] (the coefficient of absorbtion) and in active environments where [itex]N_n > N_m[/itex], where [itex]N_n[/itex](the number of excited atoms) and [itex]N_m[/itex](the number of normal atoms) the coefficient of absorption is [tex]\alpha < 0[/tex]. I think in normal environments [tex]\alpha = 0[/tex]. !??

First of all, it's not said in your question, but if we are talking about absorption, stimulated emission, and population of atoms in ground and excited state, we implicitly presume, that the light is passing through a "resonant" environment - i.e. the frequency of the light is approximately the same as the frequency of the transition of the atoms from ground to excited state.

This is not the case of what u probably call normal environment - e.g. visible light passing through glass. Here the transitions in atoms are in much higher frequencies - for glass somewhere in UV region (300nm) - glass environment is subresonant - the absorption in visible light region is negligible.

If you have light passing through a resonant environment - laser gain medium (glass doped with some ions) - there are two processes going on inside - absorption and stimulated emission. They happen with same crossections. But if there are more atoms in excited state, it is more likely that the atoms will fall down to the ground state => absorption is negative. If you have environment in theormodynamical equilibrium there are always more atoms in ground than in exc. state, and it is more likely, that atoms will be excited => light absorbed.

Hope u'll find it useful.
 
  • #3
But isn't in ground states light absorbed and then re-emitted?
 
  • #4
the atom de-excitates after a short while, but then the radiation is emitted isotropically.

So in a beam passing through material (like gas), photos will disappear due to aborbtion in atoms. And photons will be emitted into the beam after the atom de-excitates. But that latter number is SO small, due to the isotropical emission of these photons.

That was perhaps not the 100% answer to your question, but it is worth to think about it.
 
  • #5
Physicsissuef said:
But isn't in ground states light absorbed and then re-emitted?

If the absorbing material is a solid, the energy of the absorbed light is converted to heat and infrared radiation.
 

1. What is the Beer-Lambert Law?

The Beer-Lambert Law, also known as the Beer-Lambert-Bouguer Law, is a mathematical relationship that describes the absorption of light by a medium. It states that the absorbance of a material is directly proportional to its concentration and the path length of the light through the material.

2. How does the Beer-Lambert Law apply in active environments?

In active environments, such as biological systems or industrial processes, there may be additional factors that can affect the application of the Beer-Lambert Law. These factors include scattering of light, multiple absorbing species, and changes in the refractive index of the medium.

3. Does the Beer-Lambert Law apply differently in active environments compared to passive environments?

Yes, the Beer-Lambert Law can behave differently in active environments compared to passive environments. This is because the additional factors present in active environments can alter the path length and the concentration of the absorbing species, therefore affecting the absorbance of the material.

4. How can the Beer-Lambert Law be used in active environments?

The Beer-Lambert Law can still be applied in active environments, but it may require modifications to account for the additional factors. For example, scattering can be accounted for by using a correction factor or by using specialized instruments that can measure both absorbance and scattering simultaneously.

5. What are some limitations of the Beer-Lambert Law in active environments?

One limitation of the Beer-Lambert Law in active environments is that it assumes a homogeneous medium, which may not always be the case in complex systems. Additionally, the law may not accurately predict absorbance in highly concentrated solutions or in situations where there are multiple absorbing species present.

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