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By Space Force
History was made on Aug. 16, as six Space Force students out of basic military training became the first Guardians to graduate technical training at the U.S. Air Force Honor Guard at Joint Base Anacostia-Bolling.
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By NASA
When/Where
August 27-28, 2024
NASA Jet Propulsion Laboratory in Pasadena, CA
Who may attend?
Invited participants from the NASA Centers, NASA HQ, and the broader community of IR technology developers and stakeholders. All participants must be U.S. Persons – the meeting will be held at the CUI level and presentations may contain ITAR material.
Registration will be available, soon!
Purpose
The purpose of the TIM is to openly discuss and review the current state of IR technology in the 2-1000 µm wavelength range. This workshop is intended to evaluate existing relevant NASA-needed technologies and developments, identify opportunities for investments and collaboration, and formulate agency-level strategies to meet its near- and far- term needs for science and exploration missions. The presentations and contact information list will be captured in a proceedings package that will be available to all attendees and NASA stakeholders.
Background
IR detector technology is critical for NASA’s future missions, many of which require state-of-the-art infrared payloads in support Science Mission Directorate (SMD), Space Technology Mission Directorate (STMD), and Exploration Mission Directorate (EOMD). IR sensors utilized in infrared missions span a wide gamut, including multispectral, polarimetric imaging, point-source detection, scanning dispersive hyperspectral imaging, staring interferometric hyperspectral imaging, and astronomical imaging. Space-qualified IR detectors are a leading item on NASA’s critical technology lists as they are key enablers for many science missions. The objectives and IR sensor needs for future NASA missions are described in the most recent decadal surveys for Earth Science, Planetary Science, Heliophysics, and Astronomy and Astrophysics:
Thriving on Our Changing Planet: A Decadal Strategy for Earth Observation from Space Origins, Worlds, and Life: A Decadal Strategy for Planetary Science and Astrobiology 2023-2032 Solar and Space Physics: A Science for a Technological Society Pathways to Discovery in Astronomy and Astrophysics for the 2020s To promote knowledge sharing among science and engineering practitioners external- and internal-to NASA, the NASA Engineering and Safety Center (NESC) Sensors & Instrumentation Technical Discipline Team (S&I TDT) recently established an IR Detector Community of Practice (IR CoP).
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By NASA
2 min read
Preparations for Next Moonwalk Simulations Underway (and Underwater)
Launch of the Hypersonic International Flight Research Experimentation Program (HIFiRE) Flight 2 sounding rocket, a joint NASA-Air Force Research Laboratory flight experiment, May 1, 2012.Credit: AFRL Technical Challenges (TCs) are finite-duration research and development endeavors supporting the strategic goals of NASA. The Hypersonic Technology project’s Technical Challenges include estimation of uncertainty for hypersonic research problems and vehicle systems, testing controls for switching engines mid-flight, and researching more efficient fuel combustors for large ramjets, which will be needed by future commercial high-speed planes.
Uncertainty Quantification
This Technical Challenge is complete!
TC-1: System-Level Uncertainty Quantification Methodology Development and Validation: NASA developed and validated a system-level uncertainty propagation methodology to guide uncertainty-informed decision making by identifying fundamental research areas that will reduce the system performance uncertainty.
Learn more about Uncertainty Quantification on TechPort
Turbine-Based Combined Cycle
TC-2: Turbine-Based Combined Cycle Mode Transition Technology Development: The Combined Cycle Mode Transition challenge demonstrates autonomous control and establishes performance/operability assessment methodologies for future reusable hypersonic propulsion systems that use turbine engines at slow speeds while transitioning to scramjets for high-speed operations. This challenge addresses the technology barrier of propulsion system mode transition via ground tests.
Learn more about Combined Cycle on TechPort
Improved Combustor Scaling Laws for Hypersonics
TC-3: Development of Improved Combustor Scaling Laws for Dual-Mode Ramjets: To improve current engine performance and enable engine scale up to fully reusable vehicle scales 100 times larger, NASA will develop and deliver mathematical models and associated validation test data with quantified uncertainty that support the design of high-speed combustors inclusive of green fuels. NASA will demonstrate such capability by reducing the length of the state-of-the-art cavity flameholder by 25 percent (10 percent threshold, 25 percent goal cavity length reduction relative to a state-of-the-art baseline.)
Learn more about Combustor Scaling on TechPort Read More About the Hypersonic Technology Project About the Author
Shannon Eichorn
Shannon Eichorn is the Strategic Engagement Lead for NASA’s Advanced Air Vehicles Program. She is a former test engineer in supersonic wind tunnels and former engineer managing facilities, such as the Aeroacoustic Propulsion Lab, Glenn Extreme Environments Rig, and Creek Road Cryogenics Complex.
Facebook logo @NASA@NASAAero@NASA_es @NASA@NASAAero@NASA_es Instagram logo @NASA@NASAAero@NASA_es Linkedin logo @NASA Explore More
2 min read Hypersonic Technology Project Overview
Article 29 mins ago 2 min read Hypersonic Research Topics
Article 30 mins ago 2 min read High-Speed Market Studies
Article 3 days ago Keep Exploring Discover Related Topics
Technology Transfer & Spinoffs
Small Business Innovation Research (SBIR) / Small Business Technology Transfer (STTR)
Manufacturing and Materials
Why Go to Space
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Last Updated Jun 21, 2024 EditorJim BankeContactShannon Eichornshannon.eichorn@nasa.gov Related Terms
Hypersonic Technology Advanced Air Vehicles Program
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By NASA
1 min read
Preparations for Next Moonwalk Simulations Underway (and Underwater)
NASA has awarded a contract extension to TRAX International Corporation of Las Vegas for the Goddard Logistics and Technical Information II (GLTI II) services contract.
GLTI II is a cost-plus, fixed-fee contract extension including technical performance incentive fees with a six-month base beginning Jan. 31, 2024, and three one-month options. The total potential award if all three options are exercised is about $46,760,000. The current contract, originally awarded in 2017 and extended in 2023, is valued at $419,869,000.
Under this contract, TRAX will provide logistics support, technical information management and other services at NASA’s Goddard Space Flight Center in Greenbelt, Maryland; Wallops Flight Facility and Langley Research Center in Virginia; and the agency’s Headquarters in Washington, D.C.
For information about NASA and agency programs, visit:
https://www.nasa.gov/
Jeremy Eggers
Goddard Space Flight Center, Greenbelt, Md.
757-824-2958
jeremy.l.eggers@nasa.gov
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Last Updated Jan 30, 2024 EditorRob GarnerContactJeremy EggersLocationGoddard Space Flight Center Related Terms
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