Results for DC.creator="D." AND DC.creator="B." AND DC.creator="Litvin" in section 5.2.4 of volume E   page 1 of 2 pages.
Guidelines for individual systems
International Tables for Crystallography (2010). Vol. E, Section 5.2.4, pp. 405-414
... scanning but it is nontrivial to express the vectors , and d in terms of vectors a, b, c and of Miller indices (). Since the groups are ... translation group in the subspace defined by Miller indices and d should be the vector that completes the basis of ...

Orthogonal scanning, standard tables
International Tables for Crystallography (2010). Vol. E, Section 5.2.4.6.1, pp. 411-413
... origin. The projections of these situations along the cube diagonal d onto this plane are depicted in Figs. 5.2.4.9(b), 5.2.4.10(b) and 5.2.4.11(b), respectively. In these figures, the areas ...

Cubic system
International Tables for Crystallography (2010). Vol. E, Section 5.2.4.6, pp. 411-414
... origin. The projections of these situations along the cube diagonal d onto this plane are depicted in Figs. 5.2.4.9(b), 5.2.4.10(b) and 5.2.4.11(b), respectively. In these figures, the areas ...

Inclined scanning, auxiliary tables
International Tables for Crystallography (2010). Vol. E, Section 5.2.4.5.2, pp. 410-411
... Bravais-Miller indices with reference to the hexagonal basis (a, b, c) through integers h, l. To find their Miller indices ...

Orthogonal scanning, standard tables
International Tables for Crystallography (2010). Vol. E, Section 5.2.4.5.1, pp. 408-410
... identical with the p-lattice with the conventional basis (a, b). Figure 5.2.4.2 | | Symbols for a hexagonal lattice with a ... vectors of the rhombohedral basis , , are related to vectors a, b, c of the hexagonal basis as follows: as shown in ... 166) and , (No. 167), projected orthogonally along the direction of b. The vector , whose projection is shown in both figures, ...

Hexagonal family
International Tables for Crystallography (2010). Vol. E, Section 5.2.4.5, pp. 408-411
... identical with the p-lattice with the conventional basis (a, b). Figure 5.2.4.2 | | Symbols for a hexagonal lattice with a ... vectors of the rhombohedral basis , , are related to vectors a, b, c of the hexagonal basis as follows: as shown in ... 166) and , (No. 167), projected orthogonally along the direction of b. The vector , whose projection is shown in both figures, ...

Inclined scanning, auxiliary tables
International Tables for Crystallography (2010). Vol. E, Section 5.2.4.4.2, pp. 407-408
... contain the vector a, the other two contain the vector b, scanning groups are monoclinic with unique axes along vectors a and b, respectively, for the first and second pair of orientations; the scanning is inclined because the vectors a and b lie in the respective orientations. To primitive and centred ...

Orthogonal scanning, standard tables
International Tables for Crystallography (2010). Vol. E, Section 5.2.4.4.1, p. 407
... groups are again orthorhombic of centring type C (denoted by B in view of the choice of the basis) when the ...

Tetragonal system
International Tables for Crystallography (2010). Vol. E, Section 5.2.4.4, pp. 407-408
... groups are again orthorhombic of centring type C (denoted by B in view of the choice of the basis) when the ... contain the vector a, the other two contain the vector b, scanning groups are monoclinic with unique axes along vectors a and b, respectively, for the first and second pair of orientations; ...

Inclined scanning, auxiliary tables
International Tables for Crystallography (2010). Vol. E, Section 5.2.4.3.2, pp. 406-407
... axis for the orientation orbit (), and the a axis and b axis for the orientation orbits () and (), respectively. The basis , , for ...