Electron density calculator for 2D-hexagonal lattices

This Javascript calculates the 2D electron density distribution rho(r) of a hexagonal lattice from scattering data. Enter the value of the 2D-lattice spacing (d). Enter the peak intensities (as obtained with a 1D-detector) and the sign of the scattering amplitude (+ or -) of the first order reflection. The intensity values will be multiplicity- and Lorentz-corrected. For 2*Nr points rho(r) from -rmax = -rx = -ry to rmax = rx = ry will be calculated. If the calculation takes too long (on a slow computer) decrease Nr. For three reflections the electron density with the 4 sign combinations will be calculated: x/+/+, x/+/-, x/-/+, x/-/-, where x is the sign of the first order reflection. The values are listed/plotted in rho(r) vs rx, ry for all 4 combinations in arbitrary units and can be copied and pasted from the window into any text-file for further processing and graphical displaying.


Input rho (rx, ry)
d
Nr
rmax
c(1)
c(2)
c(3)



Author: M.Kriechbaum, TU-Graz (2018), e-mail: manfred.kriechbaum@tugraz.at