Skip to main content (Press Enter).
U.S. Air Force Logo
Home
News
News Stories
Photos
About Us
Biographies
Fact Sheets
Security and Policy Review
Technology Directorates
711th Human Performance Wing (711HPW)
Human Effectiveness (RH)
USAFSAM
DIMO
OGME
Aerospace Systems (RQ)
Air Force Office of Scientific Research (AFOSR)
AFWERX (RG)
Directed Energy (RD)
Information (RI)
Integrated Capabilities (RS)
Materials & Manufacturing (RX)
Munitions (RW)
Sensors (RY)
Space Vehicles (RV)
Organizations
AF Small Business (SBIR/STTR)
AFRL Small Business
Autonomy Capability Team (ACT3)
D'Azzo Research Library
Digital Capabilities (ID)
Technology Transfer
Contact Us
WIN THE FUTURE
NEWS
CAREERS
AFRL TECH
About AFRL
Contact Us
AFRL PHOTOS
Sort By
Upload Date
Photo Date
Title
Category
All Images
Other
Show Advanced Options
Only 100 pages of images will display. Consider refining search terms for better results.
Clear Filters
|
181 - 200 of 413 results
AFRL helps NASA test equipment for Artemis II mission
The Air Force Research Laboratory, or AFRL, and NASA staff adjust Campos, a fire and rescue training manikin, in the seat at the sled test facility at Wright-Patterson Air Force Base, Ohio, April 17, 2023. AFRL and NASA, along with other industry partners, such as Lockheed Martin, tested the most current iteration of an astronaut crew seat and flight suit that will be used on the Orion spacecraft during the next mission to the moon under the Artemis Program. The manikin used in the testing was Campos, named after the legendary Arturo Campos, an electrical engineer who was instrumental to saving the Apollo 13 crew. Campos is accurately weighed and has the appropriate density of a human for testing. (U.S. Air Force photo / Rick Eldridge)
Details
Download
Share
AFRL helps NASA test equipment for Artemis II mission
Campos, a fire and rescue training manikin, at the sled test facility at Wright-Patterson Air Force Base, Ohio, April 17, 2023, where Air Force Research Laboratory, or AFRL, and NASA staff test the seat and flight suit for safety measures. AFRL and NASA, along with other industry partners, such as Lockheed Martin, tested the most current iteration of an astronaut crew seat and flight suit that will be used on the Orion spacecraft during the next mission to the moon under the Artemis Program. The manikin used in the testing was Campos, named after the legendary Arturo Campos, an electrical engineer who was instrumental to saving the Apollo 13 crew. Campos is accurately weighed and has the appropriate density of a human for testing. (U.S. Air Force photo / Rick Eldridge)
Details
Download
Share
AFRL helps NASA test equipment for Artemis II mission
The Air Force Research Laboratory, or AFRL, and NASA staff prepare Campos, a fire and rescue training manikin, in the seat at the sled test facility at Wright-Patterson Air Force Base, Ohio, April 17, 2023. AFRL and NASA, along with other industry partners, such as Lockheed Martin, tested the most current iteration of an astronaut crew seat and flight suit that will be used on the Orion spacecraft during the next mission to the moon under the Artemis Program. The manikin used in the testing was Campos, named after the legendary Arturo Campos, an electrical engineer who was instrumental to saving the Apollo 13 crew. Campos is accurately weighed and has the appropriate density of a human for testing. (U.S. Air Force photo / Rick Eldridge)
Details
Download
Share
AFRL helps NASA test equipment for Artemis II mission
The Air Force Research Laboratory, or AFRL, and NASA staff adjust Campos, a fire and rescue training manikin, in the seat at the sled test facility at Wright-Patterson Air Force Base, Ohio, April 17, 2023. AFRL and NASA, along with other industry partners, such as Lockheed Martin, tested the most current iteration of an astronaut crew seat and flight suit that will be used on the Orion spacecraft during the next mission to the moon under the Artemis Program. The manikin used in the testing was Campos, named after the legendary Arturo Campos, an electrical engineer who was instrumental to saving the Apollo 13 crew. Campos is accurately weighed and has the appropriate density of a human for testing. (U.S. Air Force photo / Rick Eldridge)
Details
Download
Share
AFRL helps NASA test equipment for Artemis II mission
The Air Force Research Laboratory, or AFRL, and NASA staff hoist Campos, a fire and rescue training manikin, into the seat at the sled test facility at Wright-Patterson Air Force Base, Ohio, April 17, 2023. AFRL and NASA, along with other industry partners, such as Lockheed Martin, tested the most current iteration of an astronaut crew seat and flight suit that will be used on the Orion space capsule during the next mission to the moon under the Artemis Program. The manikin used in the testing was Campos, named after the legendary Arturo Campos, an electrical engineer who was instrumental to saving the Apollo 13 crew. Campos is accurately weighed and has the appropriate density of a human for testing. (U.S. Air Force photo / Rick Eldridge)
Details
Download
Share
AFRL helps NASA test equipment for Artemis II mission
The Air Force Research Laboratory, or AFRL, and NASA work together at the sled test facility at Wright-Patterson Air Force Base, Ohio, April 17, 2023, along with other industry partners, such as Lockheed Martin, to test the next replica of a seat and flight suit that will be used on the Orion space capsule during the next mission to the moon. (U.S. Air Force photo / Rick Eldridge)
Details
Download
Share
AFRL, NASA partner with 8 universities for new Mission Concept Program
University Nanosat Program students present their work to reviewers from the Air Force Research Laboratory, NASA, Missile Defense Agency, and Space Dynamics Lab in Albuquerque, N.M., Aug. 15, 2021. AFRL and NASA announced a collaboration with eight universities for a new Mission Concept Program from Jan. 5 to Feb. 3, 2023. The program, sponsored by AFRL's Space Vehicles Directorate, is held under the University Nanosatellite Program, or UNP, which started in 1999 and has collaborated with over 40 universities since its inception. (U.S. Air Force photo / Jesse Olson)
Details
Download
Share
AFRL successfully field-tests AI robot to improve DAF manufacturing capability
A multidisciplinary development team, comprised of Air Force Research Laboratory, or AFRL, depot, industry and academia representatives, observes the successful first demonstration of an autonomous robotic incremental metal forming prototype, nicknamed AI-FORGE, at Warner-Robins Air Logistics Complex, Georgia, in late January 2023. Personnel from AFRL’s Materials and Manufacturing Directorate, Ohio State University, the Advanced Robotics for Manufacturing Institute, Yaskawa Motoman, and CapSen Robotics collaborated to develop the robotic blacksmithing system, which uses incremental forming, a heat-assisted metalworking process that permits users to manufacture small lots of customized manufactured parts for military aircraft. During its initial test run, the artificially intelligent system operated autonomously without human interruption for over six hours.
Details
Download
Share
AFWERX
As the innovation arm of the Department of the Air Force and powered by the Air Force Research Laboratory, AFWERX accelerates agile and affordable capability transitions by teaming innovative technology developers with Airman and Guardian talent.
Details
Download
Share
AFRL re-ups affiliation with longtime liquid crystal industry partner to meet DOD needs
The image depicts AlphaMicron Inc., or AMI’s prototype progression over the course of 20 years. AMI’s first dimming proof of principle prototype from 1997 was eventually integrated into a Full Complex Curvature Helmet F-35 Visor prototype for the U.S. Department of the Air Force in 2017 to help mitigate pilots’ difficulties managing light transmission during flight. The initial collaboration between AFRL and AMI resulted in the creation of e-Tint, an electronic tint-on-demand liquid crystal technology that can be applied to flexible plastic substrates, such as pilot visors, instead of traditional glass. e-Tint switches from clear to dark faster than an eye can blink — about 0.1 of a second— and is fail-safe in a power outage. This technology was used to create the world's first electronic switchable eyewear which was field tested by the U.S. Army and is now being issued to soldiers through the Approved Protective Eyewear List. In addition to current applications, the technology is being developed for augmented reality applications and see-through displays, where simultaneously controlling ambient and display light is important, said AMI’s Chief Technology Officer and Chief Executive Officer Dr. Bahman Taheri.(U.S. Air Force photo)
Details
Download
Share
AFRL re-ups affiliation with longtime liquid crystal industry partner to meet DOD needs
The graphic illustrates how reorienting liquid crystal (yellow) causes dichroic dye (red) to reorient along with it, which changes the transmission of light. In 1997, the U.S. Department of the Air Force identified a need for controlling visor tint in pilot eyewear. Visor tint was affected by light transmission when pilots would go above or below the clouds, as sudden washes of intense sunlight mid-flight impacted their ability to read and track the data on their aircraft-mounted and head-mounted displays. To address this safety issue, AFRL partnered with Kent State University-based AlphaMicron Inc., or AMI, a global leader in liquid crystal technology, to find a solution based on AMI’s proprietary polarizer-free, guest-host liquid crystal system known as e-Tint. AMI’s Chief Technology Officer and Chief Executive Officer Dr. Bahman Taheri likens this system to a molecular version of a Venetian blind. (Courtesy photo / AlphaMicron Inc.)
Details
Download
Share
State-of-the-art terahertz
Left: State-of-the-art terahertz, or THz, communications transceiver system was placed on an aircraft test AFRL’s Terahertz Communications program which aims to determine the viability of using terahertz band frequencies to service future Department of the Air Force communication needs. Right: The transceiver installation on the aircraft is pointed toward a window where standard glass was replaced with THz transparent material to facilitate communications with another aircraft. (Courtesy photo)
Details
Download
Share
Robotics competition teaches kids teamwork, STEM
Brenda Ronnebaum, project manager, robotics education, Wright-Patterson Air Force Base Educational Outreach Office, speaks about the benefits of science, technology, engineering and mathematics, or STEM, programs such as the For Inspiration and Recognition of Science and Technology, or FIRST Tech Challenge March 11, 2023, at Hobart Arena in Troy, Ohio. Programs like the FIRST Tech Challenge introduce students to STEM fields while teaching life skills of communication, problem solving and teamwork. (U.S. Air Force photo / Jeremy Dunn)
Details
Download
Share
Robotics competition teaches kids teamwork, STEM
Robots designed and programed by Ohio middle and high school students compete during the For Inspiration and Recognition of Science and Technology, or FIRST, Tech Challenge Ohio State Championship March 11, 2023, at Hobart Arena in Troy, Ohio. Senior Air Force Research Laboratory leaders joined students as they competed in the FIRST event, which encouraged students to pursue careers in science, technology, engineering and math. (U.S. Air Force photo / Jeremy Dunn)
Details
Download
Share
Robotics competition teaches kids teamwork, STEM
Robots designed and programed by Ohio middle and high school students compete during the For Inspiration and Recognition of Science and Technology, or FIRST, Tech Challenge Ohio State Championship March 11, 2023, at Hobart Arena in Troy, Ohio. Senior Air Force Research Laboratory leaders joined students as they competed in the FIRST event, which encouraged students to pursue careers in science, technology, engineering and math. (U.S. Air Force photo / Jeremy Dunn)
Details
Download
Share
Robotics competition teaches kids teamwork, STEM
Teams prepare their robots for competition in the pit area of the For Inspiration and Recognition of Science and Technology, or FIRST, Tech Challenge Ohio State Championship March 11, 2023, at Hobart Arena in Troy, Ohio. Senior Air Force Research Laboratory leaders joined middle and high school students as they competed in the FIRST event, which encouraged students to pursue careers in science, technology, engineering and math. (U.S. Air Force photo / Jeremy Dunn)
Details
Download
Share
Robotics competition teaches kids teamwork, STEM
The competition area inside the Hobart Arena in Troy, Ohio, with competitors preparing for the For Inspiration and Recognition of Science and Technology, or FIRST, Tech Challenge Ohio State Championship March 11, 2023. Senior Air Force Research Laboratory leaders joined middle and high school students as they competed in the FIRST event, which encouraged students to pursue careers in science, technology, engineering and math. (U.S. Air Force photo / Jeremy Dunn)
Details
Download
Share
Robotics competition teaches kids teamwork, STEM
Hobart Arena in Troy, Ohio, hosts the For Inspiration and Recognition of Science and Technology, or FIRST, Tech Challenge Ohio State Championship, March 11, 2023. Senior Air Force Research Laboratory leaders joined middle and high school students as they competed in the FIRST event, which encouraged students to pursue careers in science, technology, engineering and math. (U.S. Air Force photo / Jeremy Dunn)
Details
Download
Share
AFRL researchers contribute to prestigious scientific journal ACS Nano
The graphic illustrates how the high-energy electron beam from a scanning electron microscope is used to functionalize transition metal dichalcogenides, or TMDs. Air Force Research Laboratory, or AFRL, researchers from the Materials and Manufacturing Directorate contributed this work to the February 2023 ACS Nano publication “Precision Modification of Monolayer Transition Metal Dichalcogenides via Environmental E‑Beam Patterning.” TMDs are a specific class of two-dimensional layered materials essential for the development of emerging sensing and electronic technologies for the Department of the Air Force and commercial market. The example shows hydrogen (H) and oxygen (O) atoms as they are added to TMD atomic layers consisting of sulfur (S), selenium (Se), Molybdenum (Mo) and tungsten (W) to functionalize them. The electron beam removes atoms from the TMD, causing a chemical reaction that emits light and heat which can be harnessed for use in sensing and other technologies. (U.S. Air Force graphic)
Details
Download
Share
AFRL researchers contribute to prestigious scientific journal ACS Nano
The image depicts a novel precision patterning method using the United States Department of the Air Force emblem on monolayer MoSe2, a two-dimensional material made of atomic layers. Air Force Research Laboratory, or AFRL, researchers from the Materials and Manufacturing Directorate contributed this work to the February 2023 ACS Nano publication “Precision Modification of Monolayer Transition Metal Dichalcogenides via Environmental E‑Beam Patterning.” The publication introduced an innovative process of altering and tailoring the optoelectronic properties of transition metal dichalcogenides, or TMDs. Researchers can control and manipulate the atomic properties of these materials to draw lines, shapes and desired patterns to demonstrate how the material’s thermal and optical properties can be manipulated for sensing and other technologies. (U.S. Air Force graphic)
Details
Download
Share
8
9
10
11
12
Go To Page
of 21
Go
9
10
11
Go To Page
of 21
Go