Leginon Operation for JEM scopes » History » Revision 4
Revision 3 (Anchi Cheng, 07/29/2015 12:36 PM) → Revision 4/11 (Anchi Cheng, 11/05/2015 09:40 PM)
h1. Leginon Operation for JEM scopes
The Use of JEM scopes with Leginon is close to complete.
h2. What does not work:
* Automatic Omega energy filter slit centering and filter lens (FL) adjustment.
h2. "image beam shift" on JEOL scopes is equivalent to "image shift" applied by the users on FEI instrument
Such movement should move feature in the view without induced movement of the beam.
h2. Stage Tilt (known as alpha, or TX) accuracy may be limited to 0.2-0.3 degree.
Because there is no feedback at such high precision, a requested tilt of 1 degree can be off by 0.3 degrees. As a result, the calculated eucentric height from stage tilt within autofocus procedure will be wrong. To avoid this problem, It may be necessary to use larger stage tilt autofocus focus sequence. The notes in [[Adding_a_new_focus_sequence_to_a_focus_node]] is useful for designing this. At NYSBC, the minimal tilt used in stage tilt autofocusing is 2 degrees, and often 4 degrees when possible.
h2. Some model has such a slower relax time in image shift in LOWMAG range that it is necessary not to access it in target adjustment.
An additional targeting/imaging step is added so that queued up exposure targets will not be adjusted using sq preset.
Alternatively, custom lens program can be created to replace an unused MAG1 magnification that minimize the objective lens current change. See [[JEOL installation specifics]]
h2. Special MSI Application designed to avoid using LOWMAG sq preset in the target adjustment:
The application can be found in myami/leginon/applications, and is called J-MSI-T2. You can import the application using [[Applications]] in myamiweb. The settings needed for the application is included in myami/leginon/applications as J-MSI-T2.json. It can be imported into Leginon using python file myami/dbschema/import_leginon_settings.py
The work flow include an extra "Hole Centering" target selection and "Better Hole" acquisition node with hc preset at the same preset parameters. As a result, later target adjustment on image acquired through this new node does not need to go to sq preset.
h2. Operation related to energy filter
While we can insert and remove the energy filter slit, MSI operation that acquires images at lower magnification frequently causes instability of the beam path within the energy filter. Common problem observed is that the contrast of "hl" image acquired become reversed due to misalignment of slit. The only successful example so far used the following strategy:
# Set up all presets without inserting energy filter slit.
# Activate queuing in "Exposure Targeting" node.
# Queue up all targets.
# Activate "energy filter" option in en/fa/fc/hl presets, i.e., all presets that will take images once the queue in "Exposure Targeting" is submit to process.
# Align the energy filter and image and beam shift of en/fa/fc/hl presets until stable.
# Click "Submit Queued Targets" in "Exposure Targeting" to start final exposure data collection.