In this work, a study of the mirror symmetries appearing in multiple
diffraction patterns of face-centred cubic crystals is carried out.
Several different X-ray and neutron multiple diffraction patterns have
been simulated for different face-centred cubic structures. The patterns
were plotted in circular plots which showed that two types of symmetry
mirrors coexist in the patterns: isomorphic and anamorphic mirrors. The
number and types of mirrors depend on the n-fold symmetry of the
scattering vector associated with the primary reflection. For n even,
only n isomorphic mirrors appear in the patterns. For n odd, n
isomorphic mirrors are formed intercalated between n anamorphic mirrors.
%0 Journal Article
%1 WOS:000306648300001
%A Parente, Carlos Benedicto Ramos
%A Mazzocchi, Vera Lucia
%A Sasaki, Jose Marcos
%A Cardoso, Lisandro Pavie
%C 2 ABBEY SQ, CHESTER, CH1 2HU, ENGLAND
%D 2012
%I INT UNION CRYSTALLOGRAPHY
%J JOURNAL OF APPLIED CRYSTALLOGRAPHY
%K anamorphic diffraction; isomorphic mirror mirrors; mirrors} symmetry; {multiple
%N 4
%P 621-626
%R 10.1107/S0021889812026830
%T Mirror symmetries in multiple diffraction patterns of face-centred cubic
crystals
%V 45
%X In this work, a study of the mirror symmetries appearing in multiple
diffraction patterns of face-centred cubic crystals is carried out.
Several different X-ray and neutron multiple diffraction patterns have
been simulated for different face-centred cubic structures. The patterns
were plotted in circular plots which showed that two types of symmetry
mirrors coexist in the patterns: isomorphic and anamorphic mirrors. The
number and types of mirrors depend on the n-fold symmetry of the
scattering vector associated with the primary reflection. For n even,
only n isomorphic mirrors appear in the patterns. For n odd, n
isomorphic mirrors are formed intercalated between n anamorphic mirrors.
@article{WOS:000306648300001,
abstract = {In this work, a study of the mirror symmetries appearing in multiple
diffraction patterns of face-centred cubic crystals is carried out.
Several different X-ray and neutron multiple diffraction patterns have
been simulated for different face-centred cubic structures. The patterns
were plotted in circular plots which showed that two types of symmetry
mirrors coexist in the patterns: isomorphic and anamorphic mirrors. The
number and types of mirrors depend on the n-fold symmetry of the
scattering vector associated with the primary reflection. For n even,
only n isomorphic mirrors appear in the patterns. For n odd, n
isomorphic mirrors are formed intercalated between n anamorphic mirrors.},
added-at = {2022-05-23T20:00:14.000+0200},
address = {2 ABBEY SQ, CHESTER, CH1 2HU, ENGLAND},
author = {Parente, Carlos Benedicto Ramos and Mazzocchi, Vera Lucia and Sasaki, Jose Marcos and Cardoso, Lisandro Pavie},
biburl = {https://www.bibsonomy.org/bibtex/2b69a8829f3029953054f499762d1f1b4/ppgfis_ufc_br},
doi = {10.1107/S0021889812026830},
interhash = {6d0dcb62b4c59127a30b8994df8afbff},
intrahash = {b69a8829f3029953054f499762d1f1b4},
issn = {0021-8898},
journal = {JOURNAL OF APPLIED CRYSTALLOGRAPHY},
keywords = {anamorphic diffraction; isomorphic mirror mirrors; mirrors} symmetry; {multiple},
number = 4,
pages = {621-626},
publisher = {INT UNION CRYSTALLOGRAPHY},
pubstate = {published},
timestamp = {2022-05-23T20:00:14.000+0200},
title = {Mirror symmetries in multiple diffraction patterns of face-centred cubic
crystals},
tppubtype = {article},
volume = 45,
year = 2012
}