Solar activity has surged to levels not seen in over two decades, surprising even experts with the sheer number of sunspots and the intensity of solar flares. On Earth, this heightened space weather creates breathtaking auroras, but in space, it poses significant challenges for satellites. As solar energy heats the upper edges of our atmosphere where satellites operate, it causes the thin shell of air around our planet to expand. This has led to an atmosphere in low Earth orbit that is 2-3 times denser than scientists initially predicted, exerting a drag force that gradually pulls satellites down toward a fiery reentry. While this may be good news for clearing space debris, it’s far from ideal for satellite operators striving to maintain their missions.
Today, Capella proudly shares how we’ve confronted the challenges of Solar Cycle 25 head-on. In the unpredictable environment of low Earth orbit, our “Battle with the Sun” has required swift decision-making and groundbreaking engineering at every stage of our satellite lifecycle. Thanks to the advantages of our vertically integrated approach to satellite design, manufacturing, and operations, we’ve risen to the occasion:
- Adjusting launch vehicle and orbit selection
- Deploying a significantly enhanced propulsion system in a matter of months
- Testing and implementing a new “low drag” flight mode
- And more!
This journey underscores Capella’s strengths: agility, ingenuity, and a world-class team of engineers, technicians, and operators relentlessly focused on delivering the best commercial SAR imagery in the world. While all satellite operators in low Earth orbit are facing the dramatic increase in atmospheric drag, Capella’s quick detection and decisive action ensured that our cutting-edge Acadia generation satellites were prepared to navigate this solar cycle from day one. Our Acadia satellites continue to provide our customers with unparalleled, 24/7, all-weather SAR imagery across the globe, without interruption.
To dive deeper into this story, explore our conference paper here or watch our webinar here.