Space Dynamics Laboratory
North Logan, UT
The Space Dynamics Laboratory announced recently that it has been awarded a contract by NASA’s Jet Propulsion Laboratory to build six spacecraft for NASA’s Sun Radio Interferometer Space Experiment mission, known as SunRISE. The contract value was not disclosed.
SunRISE is led by principal investigator Justin Kasper at the University of Michigan in Ann Arbor and managed by JPL in Pasadena, California. It is scheduled to launch as a hosted rideshare with a commercial satellite in 2023. Once launched, the constellation of six CubeSats will fly in a loose formation acting as a single radio telescope to observe radio images of low-frequency emissions from solar activity and share them via NASA’s Deep Space Network.Earth’s atmosphere blocks the low-frequency radio signals that SunRISE is designed to study. The SunRISE CubeSats will fly within 10 kilometers of each other in a supersynchronous orbit, creating three-dimensional maps that will determine where large particle eruptions come from on the Sun and how they evolve as they expand outward into space. This new data will help scientists learn what triggers and accelerates these colossal jets of radiation. The six individual spacecraft will also work together to map, for the first time, the pattern of magnetic field lines reaching from the Sun out into interplanetary space.
SunRISE is designed to observe powerful solar storms that send trillions of tons of charged matter towards Earth. These storms have broad implications for life on Earth and beyond. Solar storms feed into Earth’s complex space weather system, which, just like terrestrial weather, affects many of our daily Earthbound activities. Space weather can knock out power grids or block radio communications. Solar storms can also affect space systems, damaging Earth-orbiting satellites or endangering future astronauts who will travel to the Moon or Mars. SunRISE data will provide insights into solar physics and space weather that will help us predict and prepare for future solar storms.
CubeSats provide access to space for small payloads and generally have a mass that is less than 24 kilograms and a size smaller than a suitcase. At launch, each of the SunRISE Cube-Sats will weigh just 11 kilograms and measure 36 centimeters high, 24 centimeters long, and 12 centimeters wide.
SDL will provide JPL with SunRISE spacecraft design, assembly, subsystems integration, and testing. Building upon its small satellite subsystem expertise, SDL will supply the Cube-Sats with power, command and control, communications, thermal management, propulsion subsystems, and flight software. SDL is also providing spacecraft operations support while the CubeSats are in orbit.
SDL is a nonprofit research laboratory with Utah State University that has been solving the technical challenges faced by the military, science community, and industry for six decades and supports NASA's vision to reveal the unknown for the benefit of humankind. As one of 14 University Affiliated Research Centers, SDL serves as a subject matter expert in its core research areas to the US Government, ensuring that essential engineering and technology capabilities are maintained.
For Free Info Visit Here
University of Rochester Lab Creates New 'Reddmatter' Superconductivity Material...
MIT Report Finds US Lead in Advanced Computing is Almost Gone - Mobility...
INSIDERElectronics & Computers
Airbus Starts Testing Autonomous Landing, Taxi Assistance on A350 DragonFly...
Boeing to Develop Two New E-7 Variants for US Air Force - Mobility Engineering...
PAC-3 Missile Successfully Intercepts Cruise Missile Target - Mobility...
Air Force Pioneers the Future of Synthetic Jet Fuel - Mobility Engineering...
Specifying Laser Modules for Optimized System Performance
The Power of Optical & Quantum Technology, Networking, &...
How to Achieve Seamless Deployment of Level 3 Virtual ECUs for Automotive...
Manufacturing & Prototyping
Tailoring Additive Manufacturing to Your Needs: Strategies for Performance and...
Driver-Monitoring: A New Era for Advancements in Sensor Technology
Electronics & Computers
Leveraging Machine Learning in CAE to Reduce Prototype Simulation and Testing
Real Time Physiological Status Monitoring
ArticlesMechanical & Fluid Systems
Reducing the High Cost Of Titanium
Solving Military Satellite, Radar and 5G Communications Challenges with...