Analysis of the reciprocal lattice of crystals with non-primitive Bravais cells
Keywords:
direct lattice, reciprocal lattice, supercell, crystallographic coordinate system, crystallophysical coordinate system, metric tensor, structural amplitudeAbstract
The aim of the work was proof the independence of the reciprocal lattice of a crystal from the choice of a cell in its direct lattice. The object of analysis was the dependence of the position of reciprocal lattice cell sites and direct lattice parameters based on quadratic formulas, as well as the structural amplitudes («weights» of reciprocal lattice sites) for crystals with non-primitive cells. The following tasks were solved: choice of a Bravais rapper with a P-type cell in a crystal with I-, F- and C-type cells; construction of direct and reciprocal metric tensors for centered cells of a direct lattice and for P-type cells of crystal lattices; establishment of the transition rule from the HKL indices of the nodes of the reciprocal lattice with the selected P-cell to the hkl indices of the same nodes for non-primitive cells based on quadratic formulas; determining a connection between HKL and hkl indices using metric tensors; analysis of the results obtained by two different methods (based on quadratic formulas and using metric tensors); proof, that in the reciprocal lattice of crystals with non-primitive cells, the nodes that correspond to «fading» reflections are actually absent in the reciprocal lattice. The research results are addressed to specialists in the field of crystal physics and represent a rigorous proof that fills a gap in the mathematical apparatus of the kinetic theory of scattering by crystals with non-primitive Bravais cells. It allows eliminating redundant statements about the «extinction» of part of the reflexes that are not recorded on X-rays due to their real absence from scientific circulation.
References
- Cao Guozhong, Wang Ying. Nanostructures and nanomaterials: synthesis, properties, and applications. 2nd edition. Singapore: World Scientific Publishing; 2011. XIII, 581 p. (World Scientific series in nanoscience and nanotechnology; volume 2).
- Ladd M, Palmer R. Structure determination by X-ray crystallography: analysis by X-rays and neutrons. 5th edition. New York: Springer; 2013. XXXV, 756 p. DOI: 10.1007/978-1-4614-3954-7.
- Vainshtein BK. Sovremennaya kristallografiya. Tom 1. Simmetriya kristallov. Metody strukturnoi kristallografii [Modern crystallography. Volume 1. Symmetry of crystals. Methods of structural crystallography]. Moscow: Nauka; 1979. 384 p. Russian.
- Mitin VV, Sementsov DI, Vagidov NZ. Quantum mechanics for nanostructures. Cambridge: Cambridge University Press; 2010. XV, 431 p.
- Liopo VA. Matrichnaya kristallografiya [Matrix crystallography]. Grodno: Yanka Kupala State University of Grodno; 1998. 78 p. Russian.
- Glazer AM. Crystallography: a very short introduction. Oxford: Oxford University Press; 2016. 168 p.
- Liopo VA, Auchynnikau YV, Sitkevich FA, Sekerzhitsky SS, Liaushuk IA. Super cell of the reciprocal lattice of crystals. Vesnik of Brest University. Series 4. Physics. Маthematics. 2017;2:47–57. Russian.
- Liopo VA, Liaushuk IА, Sekerzhitsky SS, Sabutz AV. Dense two-layer ball packaging – HDP model. Vesnik of Brest University. Series 4. Physics. Маthematics. 2021;1:5–13. Russian.
- Liopo V, Liaushuk I, Auchynnikau Y, Sabutz A, Sarokin V, Yankov E. Analysis of the point group of diamond crystal. Industry 4.0. 2018;3(6):319–322.
Downloads
Additional Files
Published
Issue
Section
License
The authors who are published in this journal agree to the following:
- The authors retain copyright on the work and provide the journal with the right of first publication of the work on condition of license Creative Commons Attribution-NonCommercial. 4.0 International (CC BY-NC 4.0).
- The authors retain the right to enter into certain contractual agreements relating to the non-exclusive distribution of the published version of the work (e.g. post it on the institutional repository, publication in the book), with the reference to its original publication in this journal.
- The authors have the right to post their work on the Internet (e.g. on the institutional store or personal website) prior to and during the review process, conducted by the journal, as this may lead to a productive discussion and a large number of references to this work. (See The Effect of Open Access.)












