Automated Spotsize Measurements Calley Hardin Chris Baughman Advisor: Duco Jansen
Objectives Measure the FEL laser spotsize within constraint values and find focal point of FEL Improve current design Automate measurements with computer using LabView instrumentation software Perform accurate data analysis within LabView and eliminate outside software Addition of the second dimension to measurements Incorporate current design and new design to accurately output focal point value graphically
Constraints Spotsize is accurate within 10 microns without the use of software outside of LabView Suitable for 0.3-.25mm diameter beam Fully automated system which outputs graphical representation of spotsize so focal point can be determined
Why measure spotsize? Quantify energy delivered during tissue ablation Maximize energy delivered per unit area Minimize damage to surrounding tissue Better understanding of beam intensity profile and beam transport
Current Design:
Alternate Methods: Manually: visual approximation with ruler human error inconsistent CCD camera: image the beam, then measure spotsize camera usual effective at 2-4 or 8-10 microns extremely expensive, $20,000 vs. $5,000
Curve Fitting: Spotsize can be determined by Beam Profile ð Knife-edge technique Spotsize can be determined by Beam Profile Current Design requires external use of MatLab and Origin Goal: Incorporate sigmoidal curve fit into LabView 90% 10%
Finding Numerical Spotsize Using the beam profile, find the positions along the x - axis at which the knife-edge eclipsed 90% and 10% of the total beam energy. Plug these values into the following algorithm b-1 = 0.552 (x10-x90) spotsize = 2Ö2 b-1 This algorithm holds true only for lasers with Gaussian profiles. As shown by previous research the FEL does have a Gaussian profile like shown to the right
The 2nd Dimension Current Design measures spotsize in one dimension only Goal: To automate the determination of the focal point of the laser by incorporating the second dimension Specific Task: Program MM3000 and add necessary components to current LabView program
Progress Basic understanding of LabView Attended LabView Seminar upgrade to 5.1 Attended FEL beam shifts in which current system was utilized Built FEL simulation apparatus which uses a Helium laser to eliminate FEL scheduling constraints Performed spotsize measurements and evaluated error
Experimental Results: Took 10 spotsize measurements of HeNe laser with simulation set-up: Average spotsize=1.035 cm Standard Deviation=0.067 7% Error!!! Sources of Error: Size of detector relative to spotsize unstable mounting components