Title: Structure evolution in atoms of solid state dealing electron transitions

Abstract: In the synthesis of all sorts of materials, it is ambiguous to understand the structural evolution. Structural evolution of solid atoms under different conditions depends on their electron-dynamics. Electron-dynamics of targeted atoms are purely under the forces of poles instead of frictional force or other means where they invite energy as per gauge to bind amalgamating atoms under their attained dynamics. Solid atoms are restricted to evolve structure in one-dimension, two-dimension and three-dimension while in surface format, space format and grounded format, respectively, depending on the continuity of regularity in attained dynamics. In the case of short-range order or long-range order, a structure of mixed order dimension is resulted. Nature of the medium or substrate along with introduced conditions influence the structure evolution in certain dimension and format both in terms of attained dynamics and electron-dynamics of atoms. Different shape generated energy of certain electron-dynamics of targeted atom connecting to energy knot clamping electron state of amalgamated atom at the point of its binding is because of the same nature. Atoms evolve structures under the forces of different poles where resulted energy of targeted atom bind to energy knot clamping electron state of amalgamating atom laterally above and below while in space format and grounded format, respectively, whereas, bind to energy knot clamping electron state of amalgamating atom adjacently while in surface format. This fundamental revolution in the approach, how structure of solid atoms is evolved, may shed new light in existing state of materials science.