TIRF alignment guide: Difference between revisions
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Aligning TIRF | == '''Aligning TIRF lasers''' == | ||
=== Goal === | |||
To ensure that laser critical angles are always critical, independent of chosen laser direction (rotation orientation) | |||
=== '''Setting up the microscope to prepare for TIRF alignment''' === | |||
1) Bertrand lens switch: Rotate to "B" (counterclockwise) - will need to adjust small rotatory button on this switch in a later step | 1) Bertrand lens switch: Rotate to "B" (counterclockwise) - will need to adjust small rotatory button on this switch in a later step | ||
2) Change side switch: From Eye -> Camera (rotate) (on the right of the microscope, under the eye pieces) | 2) Change side switch: From Eye -> Camera (rotate) (on the right of the microscope, under the eye pieces) | ||
3) Switch Box-lights on (proximity sensor button top right of big incubator box on microscope) | 3) Switch Box-lights on (proximity sensor button top right of big incubator box on microscope) | ||
4) Change Observation mode: Camera L + Eyes (bottom button out of 4 round buttons, front of the microscope) | 4) Change Observation mode: Camera L + Eyes (bottom button out of 4 round buttons, front of the microscope) | ||
5) Move Condenser down (inside black box, above sample) as low as reasonably possible (not hitting the sample...) by adjusting one of the rotary buttons on either side of condenser | 5) Move Condenser down (inside black box, above sample) as low as reasonably possible (not hitting the sample...) by adjusting one of the rotary buttons on either side of condenser | ||
Placing the sample and finding it | === '''Placing the sample and finding it''' === | ||
1) Select the lens (e.g. 100X) | |||
2) Lower the lens with ESC, hold ESC to make that the current position | 2) Lower the lens with ESC, hold ESC to make that the current position | ||
3) Put oil on the lens | 3) Put oil on the lens | ||
4) Center the sample holder | 4) Center the sample holder | ||
5) Place the sample on the | |||
5) Place the sample on the holde | |||
6) Switch on an illumination mode (e.g. brightfield, or epifluorescence in the software) | 6) Switch on an illumination mode (e.g. brightfield, or epifluorescence in the software) | ||
7) Find focus on the sample (lens up, until image = sharp) | |||
8) (optional) switch-on PFS in the software to keep this focus | |||
=== '''Performing the TIRF alignment using the NIS Elements software''' === | |||
1) Select TIRF Prime BSI mode, pick an OC to be aligned | 1) Select TIRF Prime BSI mode, pick an OC to be aligned | ||
2) Go "LiveAllCameras" and select the Fi3 view window | 2) Go "LiveAllCameras" and select the Fi3 view window | ||
3) Press "Eyes only" on the front of the microscope (top button / observation method) | |||
3) Press "Eyes only" on the front of the microscope (top button / observation method) to direct all light to the Fi3 camera | |||
4) Using the Fi3 window (should probably adjust brightness/contrast of this view, done in the LUTs window), align the laser belonging to the desired OC you are configuring (step 5) | 4) Using the Fi3 window (should probably adjust brightness/contrast of this view, done in the LUTs window), align the laser belonging to the desired OC you are configuring (step 5) | ||
5) In the Ti2 E-TIRF Pad, hit Align and give it the correct fully reflecting critical angle for about 5-6 different rotations | 5) In the Ti2 E-TIRF Pad, hit Align and give it the correct fully reflecting critical angle for about 5-6 different rotations | ||
6) Press "compute zeo from critical angles" and close window with "OK" | 6) Press "compute zeo from critical angles" and close window with "OK" | ||
7) (optional) move on to another Optical Configuration, and repeat steps 1-6 for that particular laser | 7) (optional) move on to another Optical Configuration, and repeat steps 1-6 for that particular laser | ||
Revision as of 08:04, 19 June 2025
Aligning TIRF lasers
Goal
To ensure that laser critical angles are always critical, independent of chosen laser direction (rotation orientation)
Setting up the microscope to prepare for TIRF alignment
1) Bertrand lens switch: Rotate to "B" (counterclockwise) - will need to adjust small rotatory button on this switch in a later step
2) Change side switch: From Eye -> Camera (rotate) (on the right of the microscope, under the eye pieces)
3) Switch Box-lights on (proximity sensor button top right of big incubator box on microscope)
4) Change Observation mode: Camera L + Eyes (bottom button out of 4 round buttons, front of the microscope)
5) Move Condenser down (inside black box, above sample) as low as reasonably possible (not hitting the sample...) by adjusting one of the rotary buttons on either side of condenser
Placing the sample and finding it
1) Select the lens (e.g. 100X)
2) Lower the lens with ESC, hold ESC to make that the current position
3) Put oil on the lens
4) Center the sample holder
5) Place the sample on the holde
6) Switch on an illumination mode (e.g. brightfield, or epifluorescence in the software)
7) Find focus on the sample (lens up, until image = sharp)
8) (optional) switch-on PFS in the software to keep this focus
Performing the TIRF alignment using the NIS Elements software
1) Select TIRF Prime BSI mode, pick an OC to be aligned
2) Go "LiveAllCameras" and select the Fi3 view window
3) Press "Eyes only" on the front of the microscope (top button / observation method) to direct all light to the Fi3 camera
4) Using the Fi3 window (should probably adjust brightness/contrast of this view, done in the LUTs window), align the laser belonging to the desired OC you are configuring (step 5)
5) In the Ti2 E-TIRF Pad, hit Align and give it the correct fully reflecting critical angle for about 5-6 different rotations
6) Press "compute zeo from critical angles" and close window with "OK"
7) (optional) move on to another Optical Configuration, and repeat steps 1-6 for that particular laser