Jet Propulsion Laboratory | Technology Gaps for Rapid Response Missions to Near-Earth Objects, Interstellar Objects, and Long Period Comets |
KinetX Aerospace | World-class Expertise in Space Navigation, Flight Dynamics, Operations, and Systems Engineering |
Jet Propulsion Laboratory | Low SWaP, High performance, 94GHz RF-photonic Radar for Cloud and Precipitation Measurements |
Analytical Mechanical Associates | Aerogravity Assist Technology Could Cut Transit Time to Encleladus by Half |
Entry Systems Modeling | Entry Systems Modeling and Ground Testing: Enabling Flight Performance and Risk Reduction |
NASA | CheMinX: A Next Generation XRD/XRF Instrument for Quantitative Mineralogy and Geochemistry on Mars |
NASA | IN-SITU Mineralogical Analysis of the Venus Surface Using X-Ray Diffraction and X-Ray Fluorescence (XRD/XRF). |
NASA | LunaPIX& MapX: Particle Induced X-Ray Emission –X-Ray Fluorescence (PIXE-XRF) Instruments for Lunar and Planetary Science |
NASA | Ruggedized Infrared Camera |
Jet Propulsion Laboratory | High Specific Energy Primary Batteries for NASA Missions |
NASA | Small Spacraft Mission Concept to Support Gateway and Lunar Science |
Freefall Aerospace | Big Data from Small Spacecraft |
Jet Propulsion Laboratory | Venus In Situ Clour Explorer: Revolutionizing Knowledge of our Sister Planet |
NASA | Are you Prepared to Leave99% of Your Data on Another Planet |
CRASH Lab | Lightweight Multifunctional Probe for Extreme Environmental Exploration and Locomotion |
Jet Propulsion Laboratory | Imaging Spectrometers on SmallSats to Mars: Science Drivers and Needed Technologies |
Near Space Corporation | Venus Variable Altitude Aerobots |
Jet Propulsion Laboratory | Ocean World Lander Autonomy Testbed |
SRI International | Filling Technological Gaps for Planetary Science Missions with Customized SRI Solutions |
Ascending Node Technologies | Spaceline |
Jet Propulsion Laboratory | Deep Space Atomic Clock (DSAC): First Demonstration of a Trapped Ion Atomic Clock in Space |
Jet Propulsion Laboratory | Mercury Trapped Ion Frequency Standards and the Deep Space Atomic Clock (DSAC) Future Directions |
Jet Propulsion Laboratory | DSN Frequency and Timing Foundational for Space Exploration, Tracking & Navigation, and Science |
Jet Propulsion Laboratory | Gangotri mission concept on the glacial key to the Amazonian climate of Mars |
Jet Propulsion Laboratory | CITADEL: Cryogenic Ice Transfer, Acquisition Development, & Excavation Laboratory |
Jet Propulsion Laboratory | Manufacturing and Characterization of Icy Simulants |
Jet Propulsion Laboratory | F Prime A Flight-Proven, Multi-Platform, Open Source Software Product Line for Embedded Systems |
Space Science Institute | MACAWS: Monitoring Areostationary Constellation of Atmosphere and Weather in Space |
University of Hawaii | PORIS: An Ultra Light Weight Thermal Hyperspectral Imager |
Nanohmics | The CHIMP: Chip-scale Hyperspectral Imaging MISSE Payload |
Nanohmics | Research Highlights in Space Tech at Nanohmics, Inc. |
Boston University | An Incoherent Scatter Radar Mission to Mars (ISR2M) |
University of Iowa | Next Generation Fluxgate Magnetometers |
Impossible | L3VIN |
Impossible | MERLIN Raman Instrument |
NASA | Safe Sample Collection using a Tethered Harpoon |
Freefall Aerospace | Directional UHF/VHF Antenna for Smallsat and Landers |
Astra | A gently ionizing electrospray ionization mass spectrometer for high mass organic and biomolecule detection |
NASA Marshall Space Flight Center | Composite Technologies for Science Missions |
Jet Propulsion Laboratory | High Performance Space Flight Computing A |
Jet Propulsion Laboratory | High Performance Space Flight Computing B |
Microchip | HPSC Architecture Highlights |
NASA | Safe and Precise Landing – Integrated Capabilities Evolution (SPLICE) |
NASA | Improving Mass and Efficiency in Space Power Systems for Enhanced Science Return |
NASA | Conformal PICA TPS – Enabling Future NASA Planetary Science Missions |
Sandia National Laboratories | Quantum Sensing and Timing Technologies |
NASA | 3-D Woven TPS Enabling Solar System In-Situ Science Missions |
Spaceline Technologies | Spaceline Technologies Cryogenic kick stage for high energy mission |
NASA | Adaptive Deployable Entry Placement Technology (ADEPT) Development for Small Sat Class Venus Missions |
Space Exploration Engineering | Space Exploration Engineering 1 |
Space Exploration Engineering | Space Exploration Engineering 2 |
Iowa State University | Rover-Mounted, Real-Time and High-Resolution Microwave SAR Imaging System for Evaluation of Shallow Martian and Lunar Regolith |