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AFRL presents results from DSX spacecraft experiments

  • Published
  • By Jeanne Dailey
  • Air Force Research Laboratory Public Affairs

KIRTLAND AIR FORCE BASE, N.M. (AFRL) – Fifty scientists from Department of Defense laboratories, industry and research universities met virtually September 22 – 23, to discuss the initial findings from the Air Force Research Laboratory’s Demonstration and Science Experiments (DSX) spacecraft that completed a 23-month mission in May 2021.

The Air Force Research Laboratory’s Space Vehicles Directorate located on Kirtland AFB, hosted the meeting that included scientific presentations and discussion surrounding the more than 1,200 experiments DSX conducted. Joining AFRL were scientists from MIT-Lincoln Laboratory, the Univ. of Massachusetts-Lowell, Stanford Univ., NASA, Montana State Univ., Atmospheric and Environmental Research Inc. and Leidos.
 
The unique spacecraft, envisioned, built and tested entirely in house at Kirtland AFB, was launched June 25, 2019 with the goal to explore the complex relationship between very low frequency radio waves and the Earth’s radiation belts in medium Earth orbit (MEO).
 
“We welcome the great minds that have come together to synthesize the results of the DSX satellite experiment,” said Col. Eric Felt, the director of the Space Vehicles Directorate, in his keynote address to the meeting attendees. “The science work isn’t done until it is written down and analyzed so that it will be available for future generations.”
 
“This meeting was in part, the AFRL science team's thought process to make sense of the hundreds of experiments – to build a comprehensive picture, to explain the unexpected and to move us further in applying our results to benefit DoD missions,” said Dr. William Robert Johnston, senior research physicist and DSX principal investigator. “We saw many phenomena, some expected and some unexpected.”
 
DSX was many years in the making as scientists studied how to operate spacecraft in the harsh radiation environment of the Van Allen radiation belts and to develop technologies to protect low Earth orbiting (LEO) satellites from the effects of high altitude nuclear explosions (HANE).
 
The threat of HANE has been around since the late 1950’s, when high altitude nuclear tests demonstrated wide-area effects with significant military impact for numerous systems.
 
“High altitude nuclear explosions have an impact on radar, communications, optical sensors, satellites, electronics and power, to name a few, and a modern HANE would devastate military, national, and commercial LEO satellites,” said Erin Pettyjohn, who gave opening remarks and leads the directorate’s Geospace Technologies Division.
 
Pettyjohn further elaborated that analyzing the DSX science data will help in developing technologies to mitigate the effects of HANE on spacecraft. 
 
“A high altitude nuclear explosion can produce a long-lasting artificial radiation belt far more damaging to orbiting spacecraft than the natural belts,” Johnston said. “Our primary mission for DSX was to test performance of an antenna in space for transmitting radio waves that would wash out such an artificial radiation belt.” 
 
This was only one of the many types of studies DSX carried out, with a variety of applications for the DoD. Other DSX missions included gathering data on the radiation environment in medium Earth orbit to improve design of satellites for this region, and testing of methods to control the orientation of very large structures in space.
 
Looking to the future, the AFRL team will continue analysis of the results, and in the coming months some of those will be published and presented to the broad scientific community.
 
“Apart from the applications for DoD, the wealth of basic scientific results gathered from this unique mission will benefit ongoing research into radiation belt dynamics and other issues of design for the space environment,” Johnston explained. “Since DSX’s orbit took it to regions not frequently visited, our observations will help scientific understanding of these dynamics and be of general benefit to civilian space operations as well.”
 
Felt complimented the team on the success of the DSX mission and the great work they have done for the nation.
 
“The last thing we want is a war with an adversary in space,” Felt said. “Having a robust lab creates uncertainty of our capabilities and keeps our adversaries guessing, providing important deterrence.”
 
About AFRL

The Air Force Research Laboratory (AFRL) is the primary scientific research and development center for the Department of the Air Force. AFRL plays an integral role in leading the discovery, development, and integration of affordable warfighting technologies for our air, space, and cyberspace force. With a workforce of more than 11,500 across nine technology areas and 40 other operations across the globe, AFRL provides a diverse portfolio of science and technology ranging from fundamental to advanced research and technology development. For more information, visit: www.afresearchlab.com.