Nonius Collect: Orientation experiment

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Orientations

The "orientations and single scans" experiment is there to be able to

Position the crystal in the goniometer axis system and/or the microscope window.
Make single images and display them on the local screen.
Measure the dimensions of the crystal for absorption correction.

When the experiment starts, it will immediately establish a connection to the hardware, and if it is a new experiment it will immediately ask for the unit cell:

The experiment window consists of 5 panels.

The leftmost panel allows you to choose a direct or a reciprocal vector in the crystal.
The second panel allows you to choose a direction for the vector in the first panel, and specify a "psi" angle for the orientation of this vector.
- Direction "Up" can be used to make rotation photographs showing equivalent or Friedel reflections in the same image.
- Direction "To source" can be used to study symmetry of the data set.
- Directions "Along Y" and "Towards microscope" can be used to study and measure the crystal dimensions.
Please remember that due to the reciprocal cell geometry, positioning e.g. "a" towards the microscope shows "b*" and "c*" in the microscope plane, and "a*" along positive Y gives a microscope view direction in the "b","c" plane.
The center panel contains a "Calculate" button that calculates a goniometer position that puts the selected vector in the selected direction.
If the chosen direction would need a chi angle larger than 100 degrees, you are notified through a dialog window, and asked whether it is OK to invert the direction.
The fourth panel shows the calculated position.

The "Go here" button will position the goniometer to the displayed position. The colour of the "Go here" button will be green if positioning is possible, and red if positioning is impossible. "Minimize dx" will search for the minimal dx that can be obtained for the given position of the goniostat, leaving enough space for an omega scan.
In the top half of the fifth panel, the "Microscope view" button will pop up a window showing the orientations of the axes in the microscope window in the displayed position. If the SERVER software supports it (Win95 Versions from October 1998 onwards), the microscope image will be shown as well. The "Primary beam view" will display a similar image from the viewpoint of the primary beam (naturally excluding the microscope image).
Both these "view" windows can be manipulated with the mouse.
- Dragging with the left mouse button can be used to rotate the object around vertical and horizontal axes of the projection.
- Dragging with the central mouse button can be used to rotate the object around the center of the image.
- Dragging with the right mouse button can be used to scale the object (try either horizontal or vertical movements, the results of diagonal movements may look erratic).
Buttons below the manipulator allow for some special actions:
- "Dismiss" dismisses the view window.
- "Reset" updates the display to correspond to the current position of the goniostat.
- "Go Here" moves the goniostat to correspond to the currently displayed position (if possible).
There is one additional button "Edit Faces", which will pop up a crystal face editor.

In the file name entry field, the name of a file that will contain the crystal description can be given (default absorb.ins).
To make a face-indexing description of the crystal, do the following: choose a reciprocal vector in the first panel of the main window, and select the direction "Along positive Y". Now press "Calculate". Make sure this position can be reached by the goniostat (otherwise possibly reposition the detector a bit), and press "Go Here" in the crystal face editor window. Now the face named by the vector you chose should be positioned vertical to the right of the center. Click "Add face facing right". A purple line will appear in the display showing the normal to the added face. In the table that will appear at the right of the window, you can change the length of that vector to match the size of the crystal. (You will need to press "enter" to activate any changes).
Now, check whether the anti-face (with the opposite index) also is present on the crystal (vertical at the left side). If it is, use the button "Add face facing left" to add the face to the list, and correct the length.
Do the same for all faces on the crystal.
If the faces on the crystal do not have nice indices, they can be found using a slightly different procedure. Rotate the crystal until one of the faces "disappears from view" (i.e. it is perpendicular to the view plane). Now click the "Add face" button and move the mouse to the face. Adjust the mouse position until the face cartoon touches the crystal at the right place. There, click the left mouse button.

Once the crystal description is closed, a cartoon of the crystal will be shown in the crystal face editor, as well as in any "Microscope View" and "Primary beam view" windows.

Please note that if you find any of the images too small, you can resize the window at will. As described above, the image itself can be rescaled by dragging the right mouse button over the image. Finally, the resolution of the crystal photo is determined by the size of the video window on the Windows computer, so verify that this window is as large as it can be.
Dragging with the left and middle mouse buttons pressed together can be used to translate the crystal drawing and not the microscope image. This can be used for face indexing if the alignment of the microscope is less than perfect.
The file for the crystal description contains one line for each of the crystal faces, each line contains the literal word "FACE", three indices h,k,l (separated by spaces) describing the face, and a distance "d" (in mm) for this face to the center of the goniometer. An alum crystal could have:
```
        FACE  1  1  1 .2
        FACE  1  1 -1 .2
        FACE  1 -1  1 .2
        FACE  1 -1 -1 .2
        FACE -1  1  1 .2
        FACE -1  1 -1 .2
        FACE -1 -1  1 .2
        FACE -1 -1 -1 .2
    
```
The cifin program will use this file to define the crystal description fields of the cif file. It is also the native format for face index absorption by the platon program by Dr. A.L. Spek.
The bottom half of the fifth panel allows you to make symmetric omega scans around the position shown in panel 4. The rotation photographs will be displayed using the Ndisp program. The default name of the file will be changed in accordance with the vector and the direction chosen to make the rotation image. The "minimize dx" button in panel 4 can be used to make the rotation photo at the shortest possible distance.

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Next: Powder diagram from single crystal or powder sample