Interference fringes in Absorption spectra

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Interference fringes observed in the absorption spectra of TiO2 thin layers on a conductive glass substrate are attributed to the layers acting as an interference filter. The fringes correspond to frequencies reflected by the filter, and the absorption in solids typically shows a band structure rather than discrete lines. Observing reflected light at non-normal incidence may reveal a line spectrum that aligns with the transmitted lines. The Fabry-Perot effect may also contribute to the observed phenomena. Resources on thin film interference and interference filters are recommended for further understanding.
sounouhid
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Hello every one
I deposited TiO2 thin layers on glass conductive substrate and then i took there absorption spectra.
My question is why do i see interference fringes in the absorption spectra of my samples.
 
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Your two faces of your thin layers constitute an interference filter. The lines in the transmission spectrum will, in all probability, be frequencies that are Reflected by the filter. An interference filter need not absorb any energy. In fact, in solids, the absorption tends to have a band structure and not a line structure - which occurs in the isolated molecules in gases.
Try observing the reflected light (with non-normal incidence) and that could well give you a line spectrum (comb) that will fit the transmitted lines. (Tilting the filter will change the actual frequencies slightly)
 
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It is possible the thin layer of ## TiO_2 ## is exhibiting the Fabry-Perot effect as well as the bulk absorption spectrum that goes with it.
 
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Thank you all guys for responding me ,i really appreciate your help.
 
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sophiecentaur said:
Your two faces of your thin layers constitute an interference filter. The lines in the transmission spectrum will, in all probability, be frequencies that are Reflected by the filter. An interference filter need not absorb any energy. In fact, in solids, the absorption tends to have a band structure and not a line structure - which occurs in the isolated molecules in gases.
Try observing the reflected light (with non-normal incidence) and that could well give you a line spectrum (comb) that will fit the transmitted lines. (Tilting the filter will change the actual frequencies slightly)
Can you please give me a document that help me doing that fit.
 
sounouhid said:
Can you please give me a document that help me doing that fit.
Look up thin film interference or Interference filters for loads of sources. Pick one to suit you.
 
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sophiecentaur said:
Your two faces of your thin layers constitute an interference filter. The lines in the transmission spectrum will, in all probability, be frequencies that are Reflected by the filter. An interference filter need not absorb any energy. In fact, in solids, the absorption tends to have a band structure and not a line structure - which occurs in the isolated molecules in gases.
Try observing the reflected light (with non-normal incidence) and that could well give you a line spectrum (comb) that will fit the transmitted lines. (Tilting the filter will change the actual frequencies slightly)
OK thank you
 

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