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3.2.6.4.290/10 Knife Edge

This Knife Edge method uses a fixed 90% and 10% of energy as the moving edge Clip% points. The correction Multiplier is fixed at 1.561. These settings will yield highly accurate second moment equivalent beam widths for beams that are predominantly TEM00 in mode content, and for many other mixed mode combinations. There are a few modes for which this method will not be as accurate, as well as Top Hat shaped beams. This method will compute beam widths in the X and Y beam axial directions, or along the computed orthogonal Major and Minor axes of the beam if the Elliptical calculations are enabled.

3.2.6.4.3Knife Edge

If your laser mode content is not suitable for measurement using the previous Knife Edge method, then you can use this method and program your own Clip and Multiplier factors. For example if your beam is almost a pure donut shape (TEM01*), use the previous 90 and 10 Clip% setting, but change the Multiplier to 1.533. For a circular Top Hat, use a Multiplier of 1.455. For a square Top Hat use a Multiplier of 1.444. This method will compute beam widths in the X and Y beam axial directions, or along the computed orthogonal Major and Minor axes of the beam if the Elliptical calculations are enabled.

Hints: In general, your two Clip level settings should add up to 100%. Avoid using clip levels of <10%, as this begins to approach the camera’s noise floor, especially if your beam peak energy is less than 20% of camera saturation.

3.2.6.4.4Percent of Energy

This method will only use a limited amount of your beams energy to compute beam widths. In particular, it will only use the data from pixels on the X and Y axes of the beam that pass nearest to the computed centroid. If you have the Elliptical computations enabled, then the data used for this calculation will be from those pixels that lie along the Major and Minor axes. The Percent of Energy method requires that you set a Clip % value that corresponds to the percent of energy that will be used to define the beam width. For example, set the clip value to 86.47% if your beam is mostly a Gaussian TEM00 mode. The resulting beam widths will then be a 1/e², or second moment equivalent value.

3.2.6.4.5Percent of Peak

This method will only use a limited amount of your beam’s energy to compute beam widths. In particular, it will only use the data from pixels on the X and Y axes of the beam that pass nearest to the computed centroid. If you have the Elliptical computations enabled, then the data used for this calculation will be from those pixels that lie along the Major and Minor axes. The Percent of Peak method requires that you set a Clip % value that corresponds to the percent of your beams peak that will be used to define the beam width. For example, set the clip value to 13.53% if your beam is mostly a Gaussian TEM00 mode. The resulting beam widths will then be a 1/e², or second moment equivalent value.

Hint: This method is most useful to measure the widths of Top Hat beams typically based upon a Full-Width-Half- Max (FWHM) criteria. To achieve this set the Clip% to 50%.