![File:Flickr - Official U.S. Navy Imagery - An electronics engineer at Naval Surface Warfare Center, Corona Division, prepares alignment of various optical components using eye-safe visible lasers..jpg - Wikimedia Commons File:Flickr - Official U.S. Navy Imagery - An electronics engineer at Naval Surface Warfare Center, Corona Division, prepares alignment of various optical components using eye-safe visible lasers..jpg - Wikimedia Commons](https://upload.wikimedia.org/wikipedia/commons/3/33/Flickr_-_Official_U.S._Navy_Imagery_-_An_electronics_engineer_at_Naval_Surface_Warfare_Center%2C_Corona_Division%2C_prepares_alignment_of_various_optical_components_using_eye-safe_visible_lasers..jpg)
File:Flickr - Official U.S. Navy Imagery - An electronics engineer at Naval Surface Warfare Center, Corona Division, prepares alignment of various optical components using eye-safe visible lasers..jpg - Wikimedia Commons
![Laser Engineer CPT Richard Underdown inspects the gas dynamic laser after installation aboard an NKC-135 airborne laser laboratory during flight - NARA & DVIDS Public Domain Archive Public Domain Search Laser Engineer CPT Richard Underdown inspects the gas dynamic laser after installation aboard an NKC-135 airborne laser laboratory during flight - NARA & DVIDS Public Domain Archive Public Domain Search](https://cdn10.picryl.com/photo/1980/05/01/laser-engineer-cpt-richard-underdown-inspects-the-gas-dynamic-laser-after-installation-867cbb-1600.jpg)
Laser Engineer CPT Richard Underdown inspects the gas dynamic laser after installation aboard an NKC-135 airborne laser laboratory during flight - NARA & DVIDS Public Domain Archive Public Domain Search
Sheldon Zimmerman, a Naval Surface Warfare Center Dahlgren Division laser engineer, demonstrates a laser typically used as an astronomy aid. Zimmerman performed hazard analysis on the system - PICRYL - Public Domain
![An optical engineer evaluates the interaction of multiple lasers that will be used aboard the Airborne Laser, a megawatt-class laser weapons system being developed to defend against ballistic missile attacks. [1,319 × An optical engineer evaluates the interaction of multiple lasers that will be used aboard the Airborne Laser, a megawatt-class laser weapons system being developed to defend against ballistic missile attacks. [1,319 ×](https://external-preview.redd.it/Q7fTJGu9ksgb4-9m3xxh8Ak5FCb0TiZSqNGIqiB8RMA.jpg?auto=webp&s=cc9d44ae19c357e4bcd26bebf4b80d38bff65063)
An optical engineer evaluates the interaction of multiple lasers that will be used aboard the Airborne Laser, a megawatt-class laser weapons system being developed to defend against ballistic missile attacks. [1,319 ×
![Engineers develop laser-based method for fire and explosion testing | Aerospace Testing International Engineers develop laser-based method for fire and explosion testing | Aerospace Testing International](https://www.aerospacetestinginternational.com/wp-content/uploads/2019/04/Fireresearch_Medium.jpg)
Engineers develop laser-based method for fire and explosion testing | Aerospace Testing International
![File:Flickr - Official U.S. Navy Imagery - An electronics engineer uses visible lasers to align various optical components..jpg - Wikimedia Commons File:Flickr - Official U.S. Navy Imagery - An electronics engineer uses visible lasers to align various optical components..jpg - Wikimedia Commons](https://upload.wikimedia.org/wikipedia/commons/9/98/Flickr_-_Official_U.S._Navy_Imagery_-_An_electronics_engineer_uses_visible_lasers_to_align_various_optical_components..jpg)