Dear all, i have a question about polarization vector in performing the FEFF calculation in Artemis. I am studying the system CeOBiS2 using Bi L3-edge EXAFS. Starting from *.cif file i'm creating the *.inp file which atoms list come out as follows: ATOMS * this list contains 35 atoms * x y z ipot tag distance 0.00000 0.00000 0.00000 0 bi 0.00000 0.00000 0.00000 2.50509 4 s2.1 2.50509 2.81711 0.00000 -0.12006 4 s1.1 2.81967 -2.81711 0.00000 -0.12006 4 s1.1 2.81967 0.00000 2.81711 -0.12006 4 s1.1 2.81967 0.00000 -2.81711 -0.12006 4 s1.1 2.81967 0.00000 0.00000 -3.31180 4 s1.2 3.31180 ... Bismuth has a S atom sitting on top of him (s2) and it is square coordinated with other four S atoms (s1). I made measurements on single crystals using fluorescence yield. The experimental geometry consist of the x-ray beam coming at (almost) normal incidence which corresponds to electric field vector lying on the crystal's ab plane. If I perform the FEFF calculation without taking account of polarization I obtain the first scattering paths which are 1) @S2.1@, Degen = 1, Reff = 2.5051, Rank = 100 2) @S1.1@, Degen = 4, Reff = 2.8197, Rank = 100 3) @S1.2@, Degen = 1, Reff = 3.3118, Rank = 14.78 4) ...... When I insert the line "POLARIZATION 1 0 0" in the imput file i get 1) @S2.1@, Degen = 1, Reff = 2.5051, Rank = 100 2) @S1.1@, Degen = 4, Reff = 2.8197, Rank = 100 3) @S1.2@, Degen = 1, Reff = 3.3118, Rank = 3.67 4) ...... which is exactly the same result for the first 2 scatterings, even if the rank of higher shells is changed... Now, my question is: If the components of the polarization vector has to be written in the same reference frame of the atom list i'm expecting to see a strong suppression of the rank factor for the @S2.1@ scattering whose bond is along the z-direction, is it correct? the .cif file is attached Thank you in advance, Eugenio