TODO: extend this
A fibre is represented in MTEX by a variable of type fibre.
cs = crystalSymmetry.load('Ti-Titanium-alpha.cif') % define the fibre to be the beta fibre f = fibre.beta(cs) % define a fibre ODF odf = fibreODF(f,'halfwidth',10*degree) % plot the odf in 3d plot3d(odf)
cs = crystalSymmetry mineral : Titanium symmetry : 6/mmm elements : 24 a, b, c : 3, 2.9, 4.7 reference frame: X||a*, Y||b, Z||c* Warning: Miller indece are not orthogonal. Maximum deviation is 25 degree f = fibre (Titanium → xyz) h || r: (11 7 -18 12) || (0.16606,0.13548,0.97676) o1 → o2: (348.4°,57.8°,60°) → (90°,77.1°,60°) odf = SO3FunCBF (Titanium → xyz) kernel: de la Vallee Poussin, halfwidth 10° fibre : (11 7 -18 12) || 0.16606,0.13548,0.97676 weight: 1