I have a terrible feeling that it may be one of those cases where FEFF6 gives a large E0 shift when FEFF8 has a normal shift, the rest of the results being the same.
See Josh Kas's explanation of this issue a while ago.
Anatoly
________________________________
From: ifeffit-bounces@millenia.cars.aps.anl.gov on behalf of Jeff Terry
Sent: Tue 6/8/2010 3:56 PM
To: XAFS Analysis using Ifeffit
Subject: Re: [Ifeffit] C and N NEXAFS normalization
Hi Peter,
I have used both methods in the past. Both can run you astray, if done
improperly.
The better thing to do though is to fix the backgrounds. If you look
at the I0 signal, you should be able to tell if it is C or N on the
optics or on the I0 grid.
I have had far more trouble normalizing when C or O is on the grid. I
have not done much N work. This can be fixed by evaporating Au onto
the grid.
I just had this problem last week at SSRL. I had terrible backgrounds
that a fresh coat of Au cleaned right up.
After cleaning the grid, both methods gave similar results.
Jeff
On Jun 8, 2010, at 10:52 AM, Peter Nico
Hello All,
I am looking for thoughts and opinions regarding the best way to approach post-edge fitting and normalization of C and N NEXAFS data. I know soft x-rays aren't exactly the focus of the list, but it is still the best access to a lot of people with a lot of XAS knowledge, and I would be very interested in your opinions.
Obviously, linear or quad curve fitting followed by normalization is standard and well accepted for hard x-ray spectra.
However, as far as I can tell there is no such accepted norm of C and N NEXAFS treatment. I have seen that some groups use a single point normalization, e.g. 310 for the case of C, and simply divide through the entire spectrum with this value. Other groups take the min and max value of the spectrum and map it onto a 0 to 1 scale. Neither of these approaches seems satisfactory to me for data with obvious backgrounds like those attached. While these data are not perfect, it seems like they should definitely be useable.
My thought is why not do a 'standard' hard x-ray type normalization like that shown with an e0 set to the theoretical ionization potential for C or N. I understand that this has problems with the potential of including tailing sigma* transitions or first EXAFS oscillations in the background region because it doesn't extend far enough beyond the edge. However, it seems to me an approach like this must be 'less-wrong' than the more simplistic methods mentioned above and capable of yielding useful data.
Thoughts, comments, jeers? --Peter
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