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Mission Transition
Close cooperation between IT personnel at Brooks City Base, Texas and Wright-Patterson Air Force Base, Ohio is ensuring the U.S. Air Force School of Aerospace Medicine's digital resources will remain available during the relocation and be “up and running” once the unit’s BRAC-directed move is complete. (U.S. Air Force Photo)
Mission Transition
With thousands of specimens arriving daily for processing, USAFSAM’s clinical and research labs are taking steps now to ensure their mission can continue uninterrupted during the transition to Wright Patterson. (Air Force Photo)
MOU signing
Lt. Governor Lee Fisher and Air Force Research Laboratory commander Maj. Gen. Curtis Bedke, sign the Memorandum of Understanding which will encourage collaboration for Air Force research and economic growth. (Air Force photo by Jeremy Patton)
Mr. Kenneth LaCivita, an AFRL/RX engineer performs a thermography inspection in Vardo, Norway.
Mr. Kenneth LaCivita, an AFRL/RX engineer performs a thermography inspection in Vardo, Norway.
Mr. Kenneth LaCivita, an AFRL/RX engineer performs a thermography inspection in Vardo, Norway.
Mr. Kenneth LaCivita, an AFRL/RX engineer performs a thermography inspection in Vardo, Norway.
Mr. Kenneth M. Johnson
Mr. Kenneth M. Johnson, senior materials engineer from AFRL’s ManTech Division (AFRL image)
Mr. Mike Zenk, University of Notre Dame team member, recording vibration-environment data for a project flight test (photo by Mr. David Cavalieri)
Mr. Mike Zenk, University of Notre Dame team member, recording vibration-environment data for a project flight test (photo by Mr. David Cavalieri)
Mr. Scott Fleming (pictured left), anthropologist with AFRL’s Human Effectiveness Directorate, positions AFRL Vice Commander Colonel David B. Glade II in the lab’s three-dimensional whole-body surface scanner as he explains how the body measurement proces
Mr. Scott Fleming (pictured left), anthropologist with AFRL’s Human Effectiveness Directorate, positions AFRL Vice Commander Colonel David B. Glade II in the lab’s three-dimensional whole-body surface scanner as he explains how the body measurement process works (photo by AFRL’s Chris Gulliford).
MR-1 computer brings new capabilities to Battlefield Airmen
Air Force Research Laboratory engineer Gregory Burnett explains to Senior Airman Nicholas Halladay the MR-1 computer’s capacity to send Global Positioning System satellite coordinates to an aircraft. (U.S. Air Force photo/Airman First Class Jonathan Snyder)
Ms. Gail Forest (USAF Image)
Ms. Gail Forest, director of AFRL’s Plans and Programs Directorate, received a Professional Achievement Award at the 16th annual Women of Color STEM Technology Conference. (Air Force Image)
Ms. Holly Victorson (AFRL image)
Ms. Holly Victorson was honored as 2012’s Rookie of the Year by the Federal Laboratory Consortium for Technology Transfer. Ms. Victorson works in the Space Vehicles Directorate at Kirtland Air Force Base. (AFRL Image)
Ms. Pamela Henson
Ms. Pamela Henson will retire from Air Force Research Laboratory, following 12 years as Financial Director and Comptroller, on June 2, 2015. (U.S. Air Force photo)
Ms. Seana McNeal (AFRL Image)
Ms. Seana McNeal, of AFRL’s Propulsion Directorate at Wright-Patterson Air Force Base, benefitted from early encouragement from a teacher to pursue a career in engineering. (AFRL Image)
Ms. Shawnee Pacley honored at BEYA conference
Ms. Shawnee Pacley was honored with the most promising engineer award at the Black Engineer of the Year awards held February 19-21 in Baltimore Md. Ms. Pacley is currently a materials engineer with the Air Force Research Laboratory at Wright-Patterson AFB, Ohio. (U.S. Air Force photo)
Much-Needed HPM Sources the Pulse of Directed Energy Research
Microwave pulse compressor technology will aid high-power microwave research. Pictured is the plasma switch that is placed inside the waveguide in order to switch out compressed microwave energy once the MPC cavity is filled. (Image provided by Everett G. Farr, Farr Research, Inc.)
Multiwall carbon nanotubes in buckypaper decorated with gold nanoparticles approximately five nanometers in diameter. (AFRL Image)
Multiwall carbon nanotubes in buckypaper decorated with gold nanoparticles approximately five nanometers in diameter, developed using an AFRL system that provides enhanced strength and superior thermal and electrical conductivity. (AFRL Image)
MUPI Conference Reception Features Keynote on AFRL Opportunities
Mr. Ed Lee, AFRL Historically Black Colleges and Universities/Minority Institutions program manager, recently delivered a presentation on AFRL opportunities to 2010 Member University Professional Institute Conference goers. (AFRL image)
Nanolithography Nets Biopolymer EO Device Improvements
Researchers demonstrated the first-ever nanoimprint-lithography-based fabrication of biopolymer nanostructures. The nanolithography technology will enable low-cost, portable production of communications and sensing devices. Pictured are atomic-force microscope images of a nanoimprinted DNA biopolymer; the diameter of each pillar is 70 nm, and the height is >150 nm. (AFRL image)
Nanorod pairs (AFRL Image)
Nanorod pairs produced using a solvent-based method, a process that saves literally months when compared to the traditional method. (AFRL Image)
NASA’s launch site at Wallops Island, Virginia. (Image by Terry Zaperach)
NASA’s Wallops Island, Virginia, launch site, where an AFRL-developed separation system was launched with the Lunar Atmosphere Dust Environment Experiment. (Image by Terry Zaperach)