И.Ж. Безбах, Б.И. Мясников, И.Н. Радченко

6

Calculation of reflection electron diffraction

on a single crystal

©

I.Zh

. Bezbakh

1

, B.I. Myasnikov

2

, I.N. Radchenko

2

1

”Space Materials” Science and Research Center of the Shubnikov Institute of

Crystallography, Russian Academy of Sciences, Kaluga, 248640, Russia

2

Bauman Moscow State Technical University, Kaluga Branch, Kaluga, 248000,

Russia

The paper presents the results of mathematical modeling for one of the main methods of

investigating physical and chemical properties of the surface of solids – electron diffrac-

tion. A summary of the basic theory of the micro particles diffraction process with formu-

lae are given. The algorithm for calculating (in MathCAD) is described and a graphical

representation of the results is presented. This work allows predicting the course of re-

flected electrons diffraction on the surface of a single crystal with specified parameters of

the test process. The obtained results of modeling diffraction process can be used as an

illustrative exemplification material when studying electronography.

Keywords:

crystallography, diffraction, single crystal, scattering spectrum, glancing an-

gle.

REFERENCES

[1]

Oura K., Lifshits V.G., Saranin A.A., Zotov A.V., Katayama M.

Vvedenie v

fiziku poverkhnosti

[Introduction to Surface Physics]. Moscow, Nauka Publ.,

2006, 490 p. [in Russian].

[2]

Troyan V.I., Pushkin M.A., Borman V.D., Tronin V.N.

Fizicheskie osnovy

metodov issledovaniya nanostruktur i poverkhnosti tverdogo tela

[Physical

basis of research techniques of nanostructures and solid surface]. Moscow,

MEPhI Publ., 2008, 260 p.

[3]

Bercker U.

Spektroskopiya

[Spectroscopy]. Moscow, Tekhnosfera Publ., 2009,

528 p. [in Russian].

[4]

Rambidi N.G., ed.

Spektoskoiya i difraktsiya elektronov pri issledovanii

poverkhnosti tverdykh tel

[Spectroscopy and electron diffraction in the study of

the surface of solids]. Moscow, Nauka Publ., 1990, 356 p.

[5]

Sindo D., Oikawa T.

Analiticheskaya prosvechivayuschaya elektronnaya

mikroskopiya

[Analytical transmission electron microscopy]. Moscow,

Tekhnosfera Publ., 2006, 256 p.

[6]

Gorelik S.S., Rastorguev L.N., Skakov Yu.A.

Rentgenograficheskiy i

elektronno-opticheskiy analiz

[X-ray and electron-optical analysis]. Moscow,

Metallurgiya Publ., 2003, 360 p.

[7]

Podsvirov O.A.

Izvestiya RAN. Seriya Fizicheskaya

—

Bulletin of the Russian

Academy of Sciences: Physics

, 2007, vol. 71, no.10, pp. 1471–1480.

[8]

Agerton R.F.

Fizicheskie printsipy elektronnoy mikroskopii

[Physical

principles of electron microscopy]. Moscow, Tekhnosfera Publ., 2010, 304 p.

[9]

Lipson S.G., Lipson H., Tannhauser D.S.

Optical Physics

, Cambridge

University Press, 1995, 514 p.