Proceedings of the Yerevan State University. Physical and mathematical sciences, no. 3 (1988), pp. 87-91
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K. V. Aloumyan; R. I. Baghdasarian; P. A. Bezirganyan; A. A. Durgaryan; T. S. Mnatsakanyan; F. H. Eyramjyan. The definition of crystals elastisity modulus by X-ray interference methods. Proceedings of the Yerevan State University. Physical and mathematical sciences, no. 3 (1988), pp. 87-91. http://geodesic.mathdoc.fr/item/UZERU_1988_3_a11/
@article{UZERU_1988_3_a11,
author = {K. V. Aloumyan and R. I. Baghdasarian and P. A. Bezirganyan and A. A. Durgaryan and T. S. Mnatsakanyan and F. H. Eyramjyan},
title = {The definition of crystals elastisity modulus by {X-ray} interference methods},
journal = {Proceedings of the Yerevan State University. Physical and mathematical sciences},
pages = {87--91},
year = {1988},
number = {3},
language = {ru},
url = {http://geodesic.mathdoc.fr/item/UZERU_1988_3_a11/}
}
TY - JOUR
AU - K. V. Aloumyan
AU - R. I. Baghdasarian
AU - P. A. Bezirganyan
AU - A. A. Durgaryan
AU - T. S. Mnatsakanyan
AU - F. H. Eyramjyan
TI - The definition of crystals elastisity modulus by X-ray interference methods
JO - Proceedings of the Yerevan State University. Physical and mathematical sciences
PY - 1988
SP - 87
EP - 91
IS - 3
UR - http://geodesic.mathdoc.fr/item/UZERU_1988_3_a11/
LA - ru
ID - UZERU_1988_3_a11
ER -
%0 Journal Article
%A K. V. Aloumyan
%A R. I. Baghdasarian
%A P. A. Bezirganyan
%A A. A. Durgaryan
%A T. S. Mnatsakanyan
%A F. H. Eyramjyan
%T The definition of crystals elastisity modulus by X-ray interference methods
%J Proceedings of the Yerevan State University. Physical and mathematical sciences
%D 1988
%P 87-91
%N 3
%U http://geodesic.mathdoc.fr/item/UZERU_1988_3_a11/
%G ru
%F UZERU_1988_3_a11
In the paper the results of defining of elasticity modulus for local regions of dislocational and nondislocational Si monocrystals by means of X-ray Moire and Pandellosung Fringes methods are presented. It is shown that for the crystals, having dislocations, the elasticity modulus is smaller and depends on the density of dislocations.