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By NASA
13 min read
Preparations for Next Moonwalk Simulations Underway (and Underwater)
Getty Images University Student Research Challenge (USRC) seeks to challenge students to propose new ideas/concepts that are relevant to NASA Aeronautics. USRC will provide students, from accredited U.S. colleges or universities, with grants for their projects and with the challenge of raising cost share funds through a crowdfunding campaign. The process of creating and implementing a crowdfunding campaign acts as a teaching accelerator – requiring students to act like entrepreneurs and raise awareness about their research among the public.
The solicitation goal can be accomplished through project ideas such as advancing the design, developing technology or capabilities in support of aviation, by demonstrating a novel concept, or enabling advancement of aeronautics-related technologies.
Eligibility: NASA funding is available to all accredited U.S. institutions of higher education (e.g. universities, four-year colleges, community colleges, or other two-year institutions). Students must be currently enrolled (part-time or full-time) at the institution. NASA has no set expectations as to the team size. The number of students participating in the investigation is to be determined by the scope of the project and the student Team Leader.
The USRC solicitation is currently Closed with Proposals next due June 26, 2025. Please visit NSPIRES to receive alerts when more information is available.
A USRC Q&A/Info Session and Proposal Workshop will be held May 12, 2025, at 2pm ET ahead of the USRC Submission deadline in June 2025. Join the Q&A
Please email us at HQ-USRC@mail.nasa.gov if you have any questions or to schedule a 1 on 1.
USRC Awards
Context-Aware Cybersecurity for UAS Traffic Management (Texas A&M University)
Developing, testing, and pursuing transition of an aviation-context-aware network authentication and segmentation function, which holistically manages cyber threats in future UAS traffic control systems.
Student Team: Vishwam Raval (Team Lead), Michael Ades, Garett Haynes, Sarah Lee, Kevin Lei, Oscar Leon, McKenna Smith, Nhan Nick Truong
Faculty Mentors: Jaewon Kim and Sandip Roy
Selected: 2025
Reconnaissance and Emergency Aircraft for Critical Hurricane Relief (North Carolina State University)
Developing and deploying advanced unmanned aerial systems designed to locate, communicate with, and deliver critical supplies to stranded individuals in the wake of natural disasters.
Student Team: Tobias Hullette (Team Lead), Jose Vizcarrondo, Rishi Ghosh, Caleb Gobel, Lucas Nicol, Ajay Pandya, Paul Randolph, Hadie Sabbah
Faculty Mentor: Felix Ewere
Selected: 2025
Design and Prototyping of a 9-phase Dual-Rotor Motor for Supersonic Electric Turbofan (Colorado School of Mines)
Designing and prototyping a scaled-down 9-phase dual-rotor motor (DRM) for a supersonic electric turbofan.
Student Team: Mahzad Gholamian (Team Lead), Garret Reader, Mykola Mazur, Mirali Seyedrezaei
Faculty Mentor: Omid Beik
Selected: 2024
Project F.I.R.E (Fire Intervention Retardant Expeller) (Cerritos Community College)
Mitigating wildfires with drone released fire retardant pellets.
Student Team: Angel Ortega Barrera (Team Lead), Larisa Mayoral, Paola Mayoral Jimenez, Jenny Rodriguez, Logan Stahl, Juan Villa
Faculty Mentor: Janet McLarty-Schroeder
Selected: 2024
Learning cooperative policies for adaptive human-drone teaming in shared airspace (Cornell University)
Enabling new coordination and communication models for smoother, more efficient, and robust air traffic flow.
Student Team: Mehrnaz Sabet (Team Lead), Aaron Babu, Marcus Lee, Joshua Park, Francis Pham, Owen Sorber, Roopak Srinivasan, Austin Zhao
Faculty Mentor: Sanjiban Choudhury, Susan Fussell
Selected: 2024
Crowdfunding Website
Investigation on Cryogenic Fluid Chill-Down Time for Supersonic Transport Usage (University of Washington, Seattle)
Investigating reducing the boil-off of cryogenic fluids in pipes using vortex generators.
Student Team: Ryan Fidelis (Team Lead), Alexander Ala, Kaleb Shaw
Faculty Mentor: Fiona Spencer, Robert Breidenthal
Selected: 2024
Crowdfunding Website
Web Article: “Students win NASA grant to develop AI for safer aerial traffic“
Clean Forever-Flying Drones: Utilizing Ocean Water for Hydrogen Extraction in Climate Monitoring (Purdue University)
An ocean-based fueling station and a survey drone that can refuel in remote areas.
Student Team: Holman Lau (Team Lead), Nikolai Baranov, Andrej Damjanov, Chloe Hardesty, Smit Kapadia
Faculty Mentor: Li Qiao
Selected: 2023
Crowdfunding Website
Intelligent drone for detection of people during emergency response operation (Louisiana State University and A&M College)
Using machine learning algorithms for images and audio data, integrated with gas sensing for real-time detection of people on UAS.
Student Team: Jones Essuman (Team Lead), Tonmoy Sarker, Samer Tahboub
Faculty Mentor: Xiangyu Meng
Selected: 2023
Crowdfunding Website
Advancing Aerospace Materials Design through High-Fidelity Computational Peridynamic Modeling and Modified SVET Validation of Corrosion Damage (California State University, Channel Islands)
Modeling electrochemical corrosion nonlocally and combining efforts from bond-based and state-based theory.
Student Team: Trent Ruiz (Team Lead), Isaac Cisneros, Curtis Hauck
Faculty Mentor: Cynthia Flores
Selected: 2023
Crowdfunding Website
Swarm Micro UAVs for Area Mapping in GPS-denied Areas (Embry-Riddle Aeronautical University)
Using swarm robotics to map complex environments and harsh terrain with Micro Aerial Vehicles (MAVs)
Student Team: Daniel Golan (Team Lead), Stanlie Cerda-Cruz, Kyle Fox, Bryan Gonzalez, Ethan Thomas
Faculty Mentor: Sergey V. Drakunov
Selected: 2023
Crowdfunding Website
Web Article: “Student Research on Drone Swarm Mapping Selected to Compete at NASA Challenge“
AeroFeathers—Feathered Airfoils Inspired by the Quiet Flight of Owls (Michigan Tech University)
Creating new propeller blades and fixed wing design concepts that mimic the features of an
owl feather and provide substantial noise reduction benefits.
Student Team: William Johnston (Team Lead), Pulitha Godakawela Kankanamalage, Amulya Lomte, Maria Jose Carrillo Munoz, Brittany Wojciechowski, Laura Paige Nobles, Gabrielle Mathews
Faculty Mentor: Bhisham Sharma
Selected: 2023
Crowdfunding Website
Laser Energized Aerial Drone System (LEADS) for Sustained Sensing Applications (Michigan State University)
Laser based, high-efficiency optical power transfer for UAV charging for sustained flight and monitoring.
Student Team: Gavin Gardner (Team Lead), Ryan Atkinson, Brady Berg, Ross Davis, Gryson Gardner, Malachi Keener, Nicholas Michaels
Faculty Mentor: Woongkul Lee
Selected: 2023
Crowdfunding Website
LEADS team Website
UAM Contingency Diagnosis Toolkit (Ohio State University)
A UAM contingency diagnosis toolkit which that includes cognitive work requirements (CWRs) for human operators, information sharing requirements, and representational designs.
Student Team: Connor Kannally (Team Lead), Izzy Furl, Luke McSherry, Abhinay Paladugu
Faculty Mentor: Martijn IJtsma
Selected: 2023
Crowdfunding Website
Project Website
Web Article: “NASA Awards $80K to Ohio State students through University Research Challenge“
Hybrid Quadplane Search and Rescue Missions (NC A&T University)
An autonomous search and rescue quadplane UAS supported by an unmanned mobile landing platform/recharge station ground vehicle.
Student Team: Luis Landivar Olmos (Team Lead), Dakota Price, Amilia Schimmel, Sean Tisdale
Faculty Mentor: A. Homaifar
Selected: 2023
Crowdfunding Website
Drone Based Water Sampling and Quality Testing – Special Application in the Raritan River (Rutgers University, New Brunswick)
An autonomous water sampling drone system.
Student Team: Michael Leitner (Team Lead), Xavier Garay, Mohamed Haroun, Ruchit Jathania, Caleb Lippe, Zachary Smolder, Chi Hin Tam
Faculty Mentor: Onur Bilgen
Selected: 2023
Crowdfunding Website
Project Website
Development of a Low-Cost Open-Source Wire Arc Additive Manufacturing Machine – Arc One (Case Western Reserve University)
A small-scale, modular, low-cost, and open-source Wire Arc Additive Manufacturing (WAAM) platform.
Student Team: Vishnushankar Viraliyur Ramasamy (Team Lead), Robert Carlstrom, Bathlomew Ebika, Jonathan Fu, Anthony Lino, Garrett Tieng
Faculty Mentor: John Lewandowski
Selected: 2023
Crowdfunding Website
Web Article: “PhD student wins funding from NASA and develops multidisciplinary team of undergraduate students to build novel machine“
Low Cost and Efficient eVTOL Platform Leveraging Opensource for Accessibility (University of Nevada, Las Vegas)
Lowering the barrier of entry into eVTOL deployment and development with a low cost, efficient, and open source eVTOL platform
Student Team: Martin Arguelles-Perez (Team Lead), Benjamin Bishop, Isabella Laurito, Genaro Marcial Lorza, Eman Yonis
Faculty Mentor: Venkatesan Muthukumar
Selected: 2022
Applying Space-Based Estimation Techniques to Drones in GPS-Denied Environments (University Of Texas, Austin)
Taking real-time inputs from flying drones and outputting an accurate state estimation with 3-D error ellipsoid visualization
Student Team: James Mitchell Roberts (Team Lead), Lauren Byram, Melissa Pires
Faculty Mentor: Adam Nokes
Selected: 2022
Crowdfunding Website
Project Website
Web Article: “GPS-free Drone Tech Proposal Lands Undergrads Spot in NASA Challenge“
Underwing Distributed Ducted Fan ‘FanFoil’ Concept for Transformational Aerodynamic and Aeroacoustic Performance (Texas Tech University, Lubbock)
Novel highly under-cambered airfoils with electric ducted fans featuring ’samara’ maple seed inspired blades for eVTOL application
Student Team: Jack Hicks (Team Lead), Harrison Childre, Guilherme Fernandes, David Gould, Lorne Greene, Muhammad Waleed Saleem, Nathan Shapiro
Faculty Mentor: Victor Maldonado
Selected: 2022
Crowdfunding Website
Web Articles: “Improving Ducted-Fan eVTOL Efficiency” (AvWeek), “Sky Taxies“
Urban Cargo Delivery Using eVTOL Aircrafts (University Of Illinois, Chicago)
A bi-objective optimization formulation minimizing total run costs of a two-leg cargo delivery system and community noise exposure to eVTOL operations
Student Team: Nahid Parvez Farazi (Team Lead), Amy Hofstra, Son Nguyen
Faculty Mentor: Bo Zou
Selected: 2022
Crowdfunding Website
Web Article: “PhD student awarded NASA grant to investigate urban cargo delivery systems“
Congestion Aware Path Planning for Optimal UAS Traffic Management (University Of Illinois, Urbana-Champaign)
A feasible, provably safe, and quantifiably optimal path planning framework considering fully autonomous UAVs in urban environments
Student Team: Minjun Sung (Team Lead), Christoph Aoun, Ivy Fei, Christophe Hiltebrandt-McIntosh, Sambhu Harimanas Karumanchi, Ran Tao
Faculty Mentor: Naira Hovakimyan
Selected: 2022
Crowdfunding Website
Web Article: “NASA funds UAV traffic management research“
AeroZepp: Aerostat Enabled Drone Glider Delivery System / Whisper Ascent: Quiet Drone Delivery (University of Delaware)
An aerostat enabled low-energy UAV payload delivery system
Student Team: Wesley Connor (Team Lead), Abubakarr Bah, Karlens Senatus
Faculty Mentor: Suresh Advani
Selected: 2022
Crowdfunding Website
Sustainable Transport Research Aircraft for Test Operation (STRATO) (Rutgers University, New Brunswick)
An open source, efficiently driven, optimized Active Flow Control (AFC) enhanced control surface for UAV research platforms
Student Team: Daulton James (Team Lead), Jean Alvarez, Frederick Diaz, Michael Ferrell, Shriya Khera, Connor Magee, Roy Monge Hidalgo, Bertrand Smith
Faculty Mentor: Edward DeMauro
Selected: 2022
Crowdfunding Website
Web Articles: “SoE Students Eligible for NASA University Student Research Challenge Award“, “Senior Design Team Captures NASA Research Challenge“
A recorded STRATO USRC Tech Talk
Dronehook: A Novel Fixed-Wing Package Retrieval System (University Of Notre Dame)
Envisioning a world where items can be retrieved from remote locations in a simple fashion from efficient fixed-wing UAVs
Student Team: Konrad Rozanski (Team Lead), Dillon Coffey, Bruce Smith, Nicholas Orr
Faculty Mentor: Jane Cleland-Huang
Selected: 2021
Crowdfunding Website
Web Article: “Notre Dame student team wins NASA research award for drone scoop and grab technology“
Aerial Intra-city Delivery Electric Drones (AIDED) with High Payload Capacity (Michigan State University)
A high-payload capacity delivery drone capable of safely latching and charging on electrified public transportation systems
Student Team: Yuchen Wang (Team Lead), Hunter Carmack, Kindred Griffis, Luke Lewallen, Scott Newhard, Caroline Nicholas, Shukai Wang, Kyle White
Faculty Mentor: Woongkul Lee
Selected: 2021
AIDED Crowdfunding Website
AIDED Project Website or Team Website
Web Articles: “Spartan Engineers win NASA research award” and “NASA Aeronautics amplification“; “Ross Davis & Gavin Gardner on The Guy Gordon Show“; “MSU Students Create Delivery Drone for NASA“; “Student drone project flying high with help from NASA“
A recorded USRC Tech Talk
Robotic Fabrication Work Cell for Customizable Unmanned Aerial Systems (Virginia Polytechnic Institute & State University)
A robotic, multi-process work cell to autonomously fabricate topologically optimized UASs tailored for immediate application needs
Student Team: Tadeusz Kosmal (Team Lead), Kieran Beaumont, Om Bhavsar, Eric Link, James Lowe
Faculty Mentor: Christopher Williams
Selected: 2021
Crowdfunding Website
RAV-FAB Project Website
Web Articles: “Drones that fly away from a 3D printer: Undergraduates create science nonfiction” and “3D printing breaks out of the box / VTx / Virginia Tech“
NASA VT USRC Web Article: “USRC Students Sees Success with Crowdfunding, NASA Grants“
Publication: Hybrid additive robotic workcell for autonomous fabrication of mechatronic systems – A case study of drone fabrication – ScienceDirect
Team Social Media: Instagram: @ravfab_vt; LinkedIn: @rav-fab; YouTube
View RAV-FAB USRC Tech Talk #1 or USRC Tech Talk #2
Real Time Quality Control in Additive Manufacturing Using In-Process Sensing and Machine Learning (Cornell University)
A high-precision and low-cost intelligent sensor-based quality control technology for Additive Manufacturing
Student Team: Adrita Dass (Team Lead), Talia Turnham, Benjamin Steeper, Chenxi Tian, Siddharth Patel, Akula Sai Pratyush, Selina Kirubakar
Faculty Mentor: Atieh Moridi
Selected: 2021
Crowdfunding Website
AMAS Project Website
Web Article: “Students win NASA challenge with 3D-printer smart sensor“
A recorded USRC Tech Talk on this topic
AVIATA: Autonomous Vehicle Infinite Time Apparatus (University of California, Los Angeles)
A drone swarm system capable of carrying a payload in the air indefinitely
Student Team: Chirag Singh (Team Lead), Ziyi Peng, Bhrugu Mallajosyula, Willy Teav, David Thorne, James Tseng, Eric Wong, Axel Malahieude, Ryan Nemiroff, Yuchen Yao, Lisa Foo
Faculty Mentor: Jeff Eldredge
Selected: 2020
Crowdfunding Website
AVIATA Project Website
A recorded USRC Tech Talk on AVIATA
The recorded poster session at the TACP Showcase 2021
Redundant Flight Control System for BVLOS UAV Operations (Embry-Riddle Aeronautical University)
A redundant flight control system as a “back-up” to the primary flight computer to enhance safety of sUAS
Student Team: Robert Moore (Team Lead), Joseph Ayd, and Todd Martin
Faculty Mentor: John Robbins
Selected: 2020
Crowdfunding Website
Web Articles: “NASA Web Article“; “Drone Innovation Top Embry-Riddle Entrepreneurship Competition“
Follow the team’s progress at: https://www.facebook.com/Assured Autonomy
A recorded USRC Tech Talk on this topic
The recorded poster session at the TACP Showcase 2021
Multi-Mode Hybrid Unmanned Delivery System: Combining Fixed-Wing and Multi-Rotor Aircraft with Ground Vehicles (Rutgers University)
Extending drone delivery distance with a multi-mode hybrid delivery system
Student Team: Paul Wang (Team Lead), Nolan Angelia, Muhammet Ali Gungor
Faculty Mentor: Onur Bilgen
Selected: 2020
Crowdfunding Website
A recorded USRC Tech Talk on this topic
The recorded poster session at the TACP Showcase 2021
AVIS: Active Vortex Inducing System for Flow Separation Control to Improve Airframe Efficiency (Georgia Institute of Technology)
Use an array of vortex generators that can be adjusted throughout flight to increase wing efficiency
Student Team: Michael Gamarnik (Team Lead), Shiva Khanna Yamamoto, Noah Mammen, Tommy Schrager, Bethe Newgent
Faculty Mentor: Kelly Griendling
Selected: 2020
Go to AVIS team site
A recorded USRC Tech Talk on AVIS
The recorded poster session at the TACP Showcase 2021
NASA Web Article
Hybrid Airplanes – An Optimum and Modular Approach (California Polytechnic State University, San Luis Obispo)
Model and test powertrain to maximize the efficiency of hybrid airplanes
Student Team: Nicholas Ogden (Team Lead), Joseph Shy, Brandon Bartlett, Ryker Bullis, Chino Cruz, Sara Entezar, Aaron Li, Zach Yamauchi
Faculty Mentor: Paulo Iscold
Selected: 2019
A recorded USRC Tech Talk on this topic
The recorded poster session at the TACP Showcase 2021
ATLAS Air Transportation (South Dakota State University)
A multipurpose, automated drone capable of comfortably lifting the weight of an average person
Student Team: Isaac Smithee (Team Lead), Wade Olson, Nicolas Runge, Ryan Twedt, Anthony Bachmeier, Matthew Berg, Sterling Berg
Faculty Mentors: Marco Ciarcia, Todd Letcher
Selected: 2019
A recorded USRC Tech Talk #1 and USRC Tech Talk #2 on ATLAS
The recorded poster session at the TACP Showcase 2021
Software-Defined GPS Augmentation Network for UAS Navigation (University Of Oklahoma, Norman)
A novel solution of enhanced GPS navigation for unmanned aerial vehicles
Student Team: Robert Rucker (Team Lead), Alex Zhang, Jakob Fusselman, Matthew GilliamMentors: Dr. Yan (Rockee) Zhang (Faculty Mentor), Dr Hernan Suarez (Team Technical Mentor)
Faculty Mentors: Marco Ciarcia, Todd Letcher
Selected: 2019
Crowdfunding Website
A recorded USRC Tech Talk on this topic
The recorded poster session at the TACP Showcase 2021
UAV Traffic Information Exchange Network (Purdue University)
A blockchain-inspired secure, scalable, distributed, and efficient communication framework to support large scale UAV operations
Student Team: Hsun Chao (Team Lead) and Apoorv Maheshwari
Faculty Mentors: Daniel DeLaurentis (Faculty Mentor), Shashank Tamaskar
Selected: 2018
Web Article: “Student-developed communication network for UAVs interests NASA“
The recorded poster session at the TACP Showcase 2021
University Student Research Challenge
University Leadership Initiative
University Innovation Project
Transformative Aeronautics Concepts Program
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4 min read NASA University Research Program Makes First Award to a Community College Project
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Last Updated Apr 03, 2025 EditorLillian GipsonContactJim Bankejim.banke@nasa.gov Related Terms
University Student Research Challenge View the full article
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By NASA
NASA astronaut Christopher Williams poses for a portrait at NASA’s Johnson Space Center in Houston, Texas.Credit: NASA NASA astronaut Chris Williams will embark on his first mission to the International Space Station, serving as a flight engineer and Expedition 74 crew member.
Williams will launch aboard the Roscosmos Soyuz MS-28 spacecraft in November, accompanied by Roscosmos cosmonauts Sergey Kud-Sverchkov and Sergei Mikaev. After launching from the Baikonur Cosmodrome in Kazakhstan, the trio will spend approximately eight months aboard the orbiting laboratory.
During his expedition, Williams will conduct scientific investigations and technology demonstrations that help prepare humans for future space missions and benefit humanity.
Selected as a NASA astronaut in 2021, Williams graduated with the 23rd astronaut class in 2024. He began training for his first space station flight assignment immediately after completing initial astronaut candidate training.
Williams was born in New York City, and considers Potomac, Maryland, his hometown. He holds a bachelor’s degree in Physics from Stanford University in California and a doctorate in Physics from the Massachusetts Institute of Technology in Cambridge, where his research focused on astrophysics. Williams completed Medical Physics Residency training at Harvard Medical School in Boston. He was working as a clinical physicist and researcher at the Brigham and Women’s Hospital in Boston when he was selected as an astronaut.
For more than two decades, people have lived and worked continuously aboard the International Space Station, advancing scientific knowledge and making research breakthroughs not possible on Earth. The station is a critical testbed for NASA to understand and overcome the challenges of long-duration spaceflight and to expand commercial opportunities in low Earth orbit. As commercial companies focus on providing human space transportation services and destinations as part of a robust low Earth orbit economy, NASA is able to more fully focus its resources on deep space missions to the Moon and Mars.
Learn more about International Space Station research and operations at:
https://www.nasa.gov/station
-end-
Josh Finch / Claire O’Shea
Headquarters, Washington
202-358-1100
joshua.a.finch@nasa.gov / claire.a.o’shea@nasa.gov
Chelsey Ballarte
Johnson Space Center, Houston
281-483-5111
chelsey.n.ballarte@nasa.gov
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Last Updated Apr 03, 2025 LocationNASA Headquarters Related Terms
Humans in Space International Space Station (ISS) ISS Research Johnson Space Center View the full article
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By NASA
2 min read
Citizen Scientists Use NASA Open Science Data to Research Life in Space
2023 Workshop of Analysis Working Group members, Washington, D.C., November 14, 2023. Now, you are invited to join their quest to understand how life can thrive in deep space! Want to learn more first? Join our live virtual event April 17 at 3pm Eastern Time to hear an overview of the OSDR AWG’s operations. Photo: NASA OSDR Team How can life thrive in deep space? The Open Science Data Repository Analysis Working Groups invite volunteers from all backgrounds to help answer this question. Request to join these citizen science groups to help investigate how life adapts to space environments, exploring topics like radiation effects, microgravity’s impact on human and plant health, and how microbes change in orbit.
Currently, nine Analysis Working Groups (AWGs) hold monthly meetings to advance their specific focus areas. Participants collaborate using an online platform, the AWG “Forum-Space”, where they connect with peers and experts, join discussions, and contribute to over 20 active projects.
The AWGs work with data primarily from the NASA Open Science Data Repository (OSDR), a treasure trove of spaceflight data on physiology, molecular biology, bioimaging, and much more. For newcomers, there are tutorials and a comprehensive paper covering all aspects of the repository and the AWG community. You can explore 500+ studies, an omics multi-study visualization portal, the environmental data app, and RadLab, a portal for radiation telemetry data. (“Omics” refers to fields of biology that end in “omics,” like “genomics”.)
Each of the nine AWGs has a Lead who organizes their group and holds monthly virtual meetings. Once you join, make sure to connect with the Lead and get on the agenda so you can introduce yourself. Learn more about the AWGs here.
Have an idea for a new project? Propose a new project and help lead it! From data analysis and visualization to shaping data standards and conducting literature meta-analyses, there’s a place for everyone to contribute. Request to join, and together, we can address a great challenge for humanity: understanding and enabling life to thrive in deep space!
Want to learn more?
On April 17 at 3pm Eastern Time, the NASA Citizen Science Leaders Series is hosting an virtual event with Ryan Scott about these Analysis Working Groups and their work. Ryan is the Science Lead for the Ames Life Sciences Data Archive and the liaison between the Open Data Science Repository and the Analysis Working Groups. Click here to register for this event!
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Last Updated Apr 01, 2025 Related Terms
Citizen Science Biological & Physical Sciences Explore More
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By NASA
5 min read
Preparations for Next Moonwalk Simulations Underway (and Underwater)
NASA’s SPHEREx, which will map millions of galaxies across the entire sky, captured one of its first exposures March 27. The observatory’s six detectors each captured one of these uncalibrated images, to which visible-light colors have been added to represent infrared wavelengths. SPHEREx’s complete field of view spans the top three images; the same area of the sky is also captured in the bottom three images. NASA/JPL-Caltech Processed with rainbow hues to represent a range of infrared wavelengths, the new pictures indicate the astrophysics space observatory is working as expected.
NASA’s SPHEREx (short for Spectro-Photometer for the History of the Universe, Epoch of Reionization and Ices Explorer) has turned on its detectors for the first time in space. Initial images from the observatory, which launched March 11, confirm that all systems are working as expected.
Although the new images are uncalibrated and not yet ready to use for science, they give a tantalizing look at SPHEREx’s wide view of the sky. Each bright spot is a source of light, like a star or galaxy, and each image is expected to contain more than 100,000 detected sources.
There are six images in every SPHEREx exposure — one for each detector. The top three images show the same area of sky as the bottom three images. This is the observatory’s full field of view, a rectangular area about 20 times wider than the full Moon. When SPHEREx begins routine science operations in late April, it will take approximately 600 exposures every day.
Each image in this uncalibrated SPHEREx exposure contains about 100,000 light sources, including stars and galaxies. The two insets at right zoom in on sections of one image, showcasing the telescope’s ability to capture faint, distant galaxies. These sections are processed in grayscale rather than visible-light color for ease of viewing.NASA/JPL-Caltech “Our spacecraft has opened its eyes on the universe,” said Olivier Doré, SPHEREx project scientist at Caltech and NASA’s Jet Propulsion Laboratory, both in Southern California. “It’s performing just as it was designed to.”
The SPHEREx observatory detects infrared light, which is invisible to the human eye. To make these first images, science team members assigned a visible color to every infrared wavelength captured by the observatory. Each of the six SPHEREx detectors has 17 unique wavelength bands, for a total of 102 hues in every six-image exposure.
Breaking down color this way can reveal the composition of an object or the distance to a galaxy. With that data, scientists can study topics ranging from the physics that governed the universe less than a second after its birth to the origins of water in our galaxy.
“This is the high point of spacecraft checkout; it’s the thing we wait for,” said Beth Fabinsky, SPHEREx deputy project manager at JPL. “There’s still work to do, but this is the big payoff. And wow! Just wow!”
During the past two weeks, scientists and engineers at JPL, which manages the mission for NASA, have executed a series of spacecraft checks that show all is well so far. In addition, SPHEREx’s detectors and other hardware have been cooling down to their final temperature of around minus 350 degrees Fahrenheit (about minus 210 degrees Celsius). This is necessary because heat can overwhelm the telescope’s ability to detect infrared light, which is sometimes called heat radiation. The new images also show that the telescope is focused correctly. Focusing is done entirely before launch and cannot be adjusted in space.
“Based on the images we are seeing, we can now say that the instrument team nailed it,” said Jamie Bock, SPHEREx’s principal investigator at Caltech and JPL.
How It Works
Where telescopes like NASA’s Hubble and James Webb space telescopes were designed to target small areas of space in detail, SPHEREx is a survey telescope and takes a broad view. Combining its results with those of targeted telescopes will give scientists a more robust understanding of our universe.
The observatory will map the entire celestial sky four times during its two-year prime mission. Using a technique called spectroscopy, SPHEREx will collect the light from hundreds of millions of stars and galaxies in more wavelengths any other all-sky survey telescope.
Track the real-time location of NASA’s SPHEREx space observatory using the agency’s 3D visualization tool, Eyes on the Solar System. When light enters SPHEREx’s telescope, it’s directed down two paths that each lead to a row of three detectors. The observatory’s detectors are like eyes, and set on top of them are color filters, which are like color-tinted glasses. While a standard color filter blocks all wavelengths but one, like yellow- or rose-tinted glasses, the SPHEREx filters are more like rainbow-tinted glasses: The wavelengths they block change gradually from the top of the filter to the bottom.
“I’m rendered speechless,” said Jim Fanson, SPHEREx project manager at JPL. “There was an incredible human effort to make this possible, and our engineering team did an amazing job getting us to this point.”
More About SPHEREx
The SPHEREx mission is managed by JPL for the agency’s Astrophysics Division within the Science Mission Directorate at NASA Headquarters. BAE Systems (formerly Ball Aerospace) built the telescope and the spacecraft bus. The science analysis of the SPHEREx data will be conducted by a team of scientists located at 10 institutions in the U.S., two in South Korea, and one in Taiwan. Caltech managed and integrated the instrument. Data will be processed and archived at IPAC at Caltech. The mission’s principal investigator is based at Caltech with a joint JPL appointment. The SPHEREx dataset will be publicly available at the NASA-IPAC Infrared Science Archive. Caltech manages JPL for NASA.
For more about SPHEREx, visit:
https://science.nasa.gov/mission/spherex/
News Media Contact
Calla Cofield
Jet Propulsion Laboratory, Pasadena, Calif.
626-808-2469
calla.e.cofield@jpl.nasa.gov
2025-045
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Last Updated Apr 01, 2025 Related Terms
SPHEREx (Spectro-Photometer for the History of the Universe and Ices Explorer) Astrophysics Galaxies Origin & Evolution of the Universe The Search for Life The Universe Explore More
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By European Space Agency
The first image from a new Italian Earth observation satellite mission was published today: a high-resolution image of a strip of the Italian peninsular showing the city of Rome at a resolution of 2.66 metres. This is three times higher than the resolution currently available for systematic acquisition over Italy.
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