4. Bruker Trulive3D calibration
Calibration of the laser beams is critical for optimal imaging and should be done prior to every experiment.
If you are using the temperature controller you should wait that the temperature in the sample chamber is close to the set value to perform the calibration as temperature is one of the main factors that can change the beams alignment.
On the left side click on the Calibration tab.
Below is a view of the calibration page as it first appears.
To observe the beams and align them you want to have water in the sample chamber. You can turn on any of the laser lines but in pure water, only the 488nm laser will produce enough scattering to be observed.
Select the beam intensity at 90% and turn on the 488nm laser to about 50% or above.
The next thing you need to do is to unlink the scanners so you can control the beams separately. Select the option park for both beam and check the camera display.
When both cameras are connected you will see the same image from two different angle. The beams may look fuzzy and not in line as in the image below. If they are too dim, try increasing the laser power or the camera exposure time. They may also be far out of focus.
Calibration is better done one beam at a time. Start with the front scanner and then repeat for the back scanner. Go in the scanner settings and select off for the back scanner.
Now only the front beam will be displayed. In order to align it you can use the crosshair and ticks markers. You also don't need to have both cameras connected, it makes it easier to see to have only one image displayed. On the screenshot below, the beam is slightly offset with respect to the crosshair and not very sharp. You will want the beam to be uniformly centered on the line and the center of the beam aligned with the second tick from the center, at least for most experiments.
Offset correction: Go in the scanner settings and change the offset value until the beam is perfectly aligned with the crosshair. It usually requires small values. Once you are satisfied with the result click on the store button next to the offset value. This will save the value through the experiment.
Z focus adjustment: In the stage control, select the Z Front Lightsheet and adjust the value until the beam is as crisp as possible with a narrow waist.
Y position adjustment: In the stage control, select the Y Front Lightsheet and adjust the value until the middle of the beam is on the second tick from center.
The last two parameters to adjust are the In-plane tilt and Out-of-plane tilt. To better visualize them you can turn the TAG Lens on.
In-plane Front Lightsheet adjustment: Change the value until the beam is perfectly centered along the crosshair.
Out-of-plane Front Lightsheet adjustment: you want to observe a uniform thickness of the beam along the crosshair. Change the value until it looks the most uniform.
Store all the values by clicking on the save button at the bottom of the Lightsheet alignment panel.
Repeat the process for the back scanner. Turn the front scanner off and park the back scanner then adjust the offset, the Z, Y, In-plane and Out-of-plane. Remember to turn off the TAG lens to start the procedure. Save your values and park both beams to check they are both well aligned.
The last step of the basic calibration process is to perform the Scanner Calibration.
Make sure both cameras are connected. Then click start and click on the next steps until the calibration is finished. Click Finish and if successful you are good to go!
NOTE: If you are planning to use more than one magnification you should repeat the scanner calibration for each magnification.
NOTE: If you need to perform photo-manipulation you will need to calibrate the PM module as well. Instructions will be detailed in the Photo-Manipulation page.