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New technology dazzles aggressors
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Capt. Drew F. Goettler, of the Air Force Research Laboratory' Directed
Energy Directorate, demonstrates the Personnel Halting and Stimulation
Response, or PHaSR, a non-lethal illumination technology developed by
the laboratory's ScorpWorks team. The technology is the first
man-portable, non-lethal deterrent weapon intended for protecting
troops and controlling hostile crowds. The laser light used in the
weapon temporarily impairs aggressors by illuminating or "dazzling"
individuals, removing their ability to see the laser source. (AF
photo) |
Blackanthem.com, KIRTLAND AIR FORCE BASE, N.M., October 27, 2005
A laser technology being developed by Air Force Research Laboratory
employees at Kirtland Air Force Base, N.M. will be the first man-portable,
non-lethal deterrent weapon intended for protecting troops and controlling
hostile crowds.
The weapon, developed by the laboratory's Directed Energy Directorate,
employs a two-wavelength laser system and is the first of its kind as a
hand-held, single-operator system for troop and perimeter defense. The
laser light used in the weapon temporarily impairs aggressors by
illuminating or "dazzling" individuals, removing their ability to see the
laser source.
The first two prototypes of the Personnel Halting and Stimulation
Response, or PHaSR, were built at Kirtland last month and delivered to the
laboratory's Human Effectiveness Directorate at Brooks City Base, Texas,
and the Joint Non-Lethal Weapons Directorate at Quantico, Va. for testing.
"The future is here with PHaSR," said program manager Capt. Thomas Wegner.
Wegner is also the ScorpWorks flight commander within the Laser Division
of the directorate. ScorpWorks is a unit of military scientists and
engineers that develops laser system prototypes for AFRL, from beginning
concept to product field testing.
The National Institute of Justice recently awarded ScorpWorks $250,000 to
make an advanced prototype that will add an eye-safe laser range finder
into PHaSR. Systems such as PHaSR have historically been too powerful at
close ranges and ineffective but eye-safe at long ranges. The next
prototype is planned to include the addition of the eye-safe range finder
and is planned for completion in March 2006.
By Eva D. Blaylock
Air Force Research Laboratory Directed Energy Directorate Public Affairs
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