represent orientations in a gridded structure to allow quick access
Syntax
S3G = regularSO3Grid(CS)
S3G = regularSO3Grid(CS,SS,'resolution',2.5*degree) % specify the resolution
S3G = regularSO3Grid(CS,SS,'resolution',5*degree,'ZYZ') % use ZYZ convention
S3G = regularSO3Grid(CS,SS,'phi2','sections',10) % 10 phi2 sections
S3G = regularSO3Grid
S3G = equispacedSO3Grid(CS,SS,'points',n)
S3G = equispacedSO3Grid(CS,'resolution',res)% fill only a ball with radius of 20 degree
S3G = equispacedSO3Grid(CS,'maxAngle',20*degree)Input
| CS | crystalSymmetry |
| SS | specimenSymmetry |
| n | approximate number of points |
| res | resolution in radiant |
Output
| S3G | SO3Grid |
Options
| maxAngle | radius of the ball to be filles |
| center | center of the ball |
| sections | number of sections |
Flags
| phi1 | Phi | phi2 | sections along which variable |