Hi all,
Does Feff take into account of the radius of the each atom when it
calculates atom-pair distance? I am wondering if the calculated
atom-pair distance (Reff) in each SS path has already excluded the
radius size of absorber and scatterer atoms? In the R-space spectra, I
always have a big peak at R smaller than any of the calculated path
distances, in other words, I feel there is no possible path
contributing to this peak.
My goal is trying to understand where the filler atom is in a unit
cell, so if the above question is 'yes', the true position of the
filler atoms is very likely to be far away from the site I input in
the ATOM file ?
Best regards,
Yanyun
Quoting Scott Calvin
Hi Yanyun,
This topic has been dealt with multiple times on the mailing list. Please search the archive:
http://www.mail-archive.com/ifeffit@millenia.cars.aps.anl.gov/
For example, searching for "sites" will give you several discussions of the topic.
--Scott Calvin Sarah Lawrence College
On Aug 19, 2014, at 2:49 PM,
wrote: Hi all,
How would you deal with the case that the absorber atoms are occupying two different crystallography sites? Should I still use/guess the same 'S02' for paths calculated from two sites?
Best, Yanyun
Quoting huyanyun@physics.utoronto.ca:
Hi Scott,
Thank you for giving me detailed examples. I will go with your suggestion and try to reduce free parameters.
Best, Yanyun Quoting Scott Calvin
: Hi Yanyun,
On Aug 19, 2014, at 12:05 PM, huyanyun@physics.utoronto.ca wrote:
But my question is, for each path there are a set of Path Parameters, does that mean we have to fit this set of path parameters independent from those used in other paths? For instance, if I am going to include 30 paths in my fitting, do I need to guess about 150 (30*5=150) parameters (except guess the same 'enot' for all paths)?
No. One of the great principles of Ifeffit (and thus Artemis) is that the path parameters do not have to be the same as the fit parameters.
As a simple example, it's good to start with the model that all paths have the same value for E0. So you can guess a single parameter and then use that parameter for the E0 for all paths.
As another simple example, a cubic crystal might be modelled as having a uniform thermal (or Vegard's law) expansion. Then there could be a single guessed parameter indicating the fractional expansion (called, for example, alpha) while the delr for each path could then be entered as alpha*reff.
Much more complicated constraint schemes are possible, but for fits with large number of paths, the number of guessed parameters is almost always much much lower than the number of path parameters.
As shown on the fit Log file, the Correlation value between two fit parameters is the bigger the better, or the smaller the better?
Not necessarily. Correlations are provided to help understand the relationship between guessed parameters, but there's nothing inherently wrong with a high correlation...the uncertainty associated with that relationship is already represented in the uncertainties reported with the fit. In other words, it is more direct to focus on getting the uncertainties to be lower, rather than the correlations.
--Scott Calvin Sarah Lawrence College
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