Difference between revisions of "Pratt/optics rail"
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− | *These photos are taken from a TurboCAD rendering of the optics rail that I completed this week. I have also added the 0.5cm x 0.5cm x 100 micron thick diamond at the optimum focal length ([http://zeus.phys.uconn.edu/wiki/index.php/Diamond_Radiator_Thinning_Using_an_Excimer_Laser 17cm]) and tilted at a 45 degree angle from the beam axis. The blue cone represents the ablation plume and its dimensions are taken from plume characteristics observed in local thin film ablation laboratories. | + | *These photos are taken from a [[Media:optics.TCW|TurboCAD rendering]] of the optics rail that I completed this week. I have also added the 0.5cm x 0.5cm x 100 micron thick diamond at the optimum focal length ([http://zeus.phys.uconn.edu/wiki/index.php/Diamond_Radiator_Thinning_Using_an_Excimer_Laser 17cm]) and tilted at a 45 degree angle from the beam axis. The blue cone represents the ablation plume and its dimensions are taken from plume characteristics observed in local thin film ablation laboratories. |
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Revision as of 19:34, 7 May 2010
- This page is for the use of Dr. Richard T. Jones to display the progress made with the laser ablation optics system.
- These photos are taken from a TurboCAD rendering of the optics rail that I completed this week. I have also added the 0.5cm x 0.5cm x 100 micron thick diamond at the optimum focal length (17cm) and tilted at a 45 degree angle from the beam axis. The blue cone represents the ablation plume and its dimensions are taken from plume characteristics observed in local thin film ablation laboratories.