@@ -134,7 +134,7 @@ In the above, the red, mauve and dark mauve lines form the cone.
The centre of the optic following the CC is positionned relative to the centre of the CC's second crystal modulo `h`. The ray is followed.
A special monitor (made with the the Monitor_nD component) is placed after the M2b mirror but before the sample. It indicates the energy repartition of the beam.
A special monitor (made with the the Monitor_nD component) is placed after the M2b mirror but before the sample. It indicates the vertical energy repartition of the beam.
As explained in page 152 of the book "An Introduction to Synchrotron Radiation" by Willmott, Philip, John Wiley & Sons, 2019:
...
...
@@ -160,7 +160,7 @@ To get the above, simply execute:
The presence of the M2b mirror has for main purpose to focus the beam towards the detector's entrance, a ionisation chamber of aperture 10mm. Furthermore, it attenuates the vertical movement of the beam caused by the channel-cut's rotation(although the vertical movement is minimal).
The presence of the M2b mirror has for main purpose to focus the beam towards the detector. Furthermore, it attenuates the vertical movement of the beam caused by the channel-cut's rotation(although the vertical movement is minimal).
## Simulation of the ROCK beamline with a sample
The sample is positioned at the end of the beamline.
