Difference between revisions of "Integral reflection conditions"

Revision as of 07:13, 5 May 2006

Definition

The integral reflections are the general reflection conditions due to the centring of cells. They are given in the table below:

<tr align=left> <td>k + l = 2n</td> <td>A-face centred</td> <td>A</th> </tr> <tr align=left> <td>l + h = 2n</td> <td>B-face centred</td> <td>B</td> </tr> <tr align=left> <td>h + k + l = 2n</td> <td>body centred</td> <td>I</th> </tr> <tr align=left> <td>h + k, h + l and
k + l = 2n or:
h, k, l all odd or all
even (‘unmixed’)</td> <td>all-face centred</td> <td> F</th> </tr> <tr align=left> <td> − h + k + l = 3n</td> <td> rhombohedrally
centred, reverse
setting </td><td rowspan=2>R (hexagonal axes)</td>></tr> <tr align=left> <td> h − k + l = 3n</td> <td> rhombohedrally
centred, obverse
setting (standard)</td> </tr> <tr align=left> <td> h − k = 3n</td> <td>hexagonnally centred</td> <td> H</td> </table>

**Integral reflection conditions for centred lattices.**
Reflection condition	Centring type of cell	Centring symbol
None	Primitive	P R (rhombohedral axes)
h + k = 2n	C-face centred	C</th>

@@ Line 1: / Line 1: @@
+== Definition ==
+The integral reflections are the general [[reflection conditions]] due to the centring of cells. They are given in the table below:
 <table border cellspacing=0 cellpadding=5 align=center>
   <caption align=top> '''Integral reflection conditions for centred lattices.''' </caption>

Difference between revisions of "Integral reflection conditions"

From Online Dictionary of Crystallography

Revision as of 07:13, 5 May 2006

Definition