The Air Force Research Laboratory’s Laser Division faces the unique challenge of explaining the intricate technical problems in its research portfolio to a varied audience that includes upper military leadership who control program funding all the way to students of all levels as part of STEM outreach activities. An innovative solution to this challenge was developed by a team of junior scientists and engineers in the form of a series of table top demos used to visually illustrate some of the key technical challenges and fundamental science the lab is working on. One of the most challenging problems facing our team is the degrading optical effect caused by turbulence. Modern laser weapons systems utilize Adaptive Optics (AO) to correct for many of these effects and thus our team set out to showcase an AO system approachable to the public. This paper highlights how we use a commercial product as the center of our demo, lessons we have learned while showcasing this demo and a few expansion possibilities. This system boasts a unique ability to speak to all ages and thus has been used to explain key concepts to military leadership at the Pentagon as well as expose elementary students across the USA to STEM challenges. This system is one of a two-part set. The other, focusing on Line-of-Sight Stabilization, is discussed in a sister paper.
KEYWORDS: Mirrors, Scanning transmission electron microscopy, Visualization, Line of sight stabilization, Laser systems engineering, Laser optics, Sensors, Weapons, Laser stabilization, Feedback control
The Air Force Research Laboratory’s Laser Division faces the unique challenge of explaining intricate technical problems in its research portfolio to a varied audience, ranging from upper military leadership in control of program funding to young elementary students involved in STEM outreach activities. A team of Lieutenants from Kirtland Air Force Base developed an innovative solution to this challenge with a series of tabletop demos used to visually illustrate some of the key technical challenges and fundamental science the lab is working on. The negative effects of vibration on a laser system is a visually apparent problem and thus jitter was the focus of our first demo. The demo uses a Line-of-Sight Stabilization system to stabilize a vibrating laser beam. This paper will discuss the system design, implementation of the control loop, presentation techniques, and opportunities for expansion. This demo boasts a unique ability to speak to all ages, making it easier to explain key concepts to military leadership at the Pentagon as well as expose students across the USA to STEM challenges. This system is also one of a two-part set. The other, focusing on Adaptive Optics, is discussed in a sister paper.
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