Author/Authors :
Shuaib, Ahmad University of Engineering and Technology, Lahore - Department of Physics, Pakistan , Anwar, Abdul Waheed University of Engineering and Technology, Lahore - Department of Physics, Pakistan , Bhatti, Khurshid Aslam University of Engineering and Technology, Lahore - Department of Physics, Pakistan , Dildar, Ishrat Mubeen University of Engineering and Technology, Lahore - Department of Physics, Pakistan , Chaudhary, Qasim Ali University of Engineering and Technology, Lahore - Department of Mathematics, Pakistan
Abstract :
The aim of this research work is to develop a method to provide a reasonable “prior” electron density that can be used in the so-called “Maximum Entropy Method” (MEM) refinement of X-ray diffraction (XRD) data in order to reconstruct experimental electron density at a resolution allowing its accurate topological analysis. A program was developed which build electron density on a regular grid in the “Independent Atom Model” (IAM) approach, more precisely from the knowledge of individual “spherical” atomic scattering factors of the atoms constituting the unit cell of the studied compounds. IAM X-ray structure factors of bismuth and its prior density on a grid has been generated to be tested with the MEM “Enigma” software. Preliminary accuracy and performances have been compared when such reasonable “prior” density is used instead of starting with “flat” density.
Keywords :
Electron Density , MEM , XRD , R , Factor
