‘The most exciting beep I’ll ever hear’

 
Mechanical and electrical support equipment for NASA’s Landsat 9 observatory being processed inside the Integrated Processing Facility at Vandenberg Space Force Base in California, on June 24, 2021. The equipment includes a secondary payload adapter and flight system for a group of microsat payloads, called CubeSats, that will launch with Landsat 9 as secondary payloads.
Mechanical and electrical support equipment for NASA’s Landsat 9 observatory being processed inside the Integrated Processing Facility at Vandenberg Space Force Base in California, on June 24, 2021. The equipment includes a secondary payload adapter and flight system for a group of microsat payloads, called CubeSats, that will launch with Landsat 9 as secondary payloads. Credit: NASA / Jerry Nagy

By Jessica Merzdorf Evans // NASA GODDARD SPACE FLIGHT CENTER, MARYLAND //

When the Landsat 9 satellite launches to space next week, it won’t be going alone. NASA is partnering with the U.S. Space Force to launch four CubeSats — miniature satellites — on the same Atlas V rocket that’s taking Landsat 9 to its orbit 438 miles above Earth.

While some of the missions sport adorable names — they’re dubbed CUTE (Colorado Ultraviolet Transit Experiment), CuPID (Cusp Plasma Imaging Detector), and Cesium Satellites 1 and 2 — these little satellites are pioneering some serious science and technology.

The four CubeSats are mounted on a ring-shaped frame, called the ESPA, or the “Evolved Expendable Launch Vehicle Secondary Payload Adapter.” (The program’s name, EFS, stands for ESPA Flight Systems.) The ESPA will ride with Landsat 9 inside the top section of the rocket, the payload fairing. After the rocket’s second stage, called the Centaur, safely boosts Landsat 9 to its orbit, it will drop to a lower orbit and send the CubeSats on their way.

“This is a pathfinder mission for NASA, so the process for doing it was undefined,” said Theo Muench, a NASA engineer and the partnership’s program manager. “NASA has never flown an ESPA ring with secondary payloads inside the fairing before, so we had to work with all our stakeholders to invent a plan to fly.”

Rideshare programs aren’t new — programs like NASA’s CubeSat Launch Initiative (CSLI) regularly coordinate rides for small satellites with larger missions. The Air Force, Space Force and commercial launch providers like SpaceX have let satellites tag along on their missions too. But the new EFS partnership provides access to more missions between NASA and the Space Force, increasing the number of options available to mission designers.

“This program is a big cost-saver, because a lot of times you can buy an ESPA ring for a fraction of what it would take to buy a small launch vehicle,” said Maj. Julius Williams, chief of the U.S. Space Force’s Mission Manifest Office, or MMO. The MMO’s goal is to seek out launch partnerships with other agencies. “If someone were to procure a satellite launch vehicle on their own, they wouldn’t use as much of the vehicle capability, on top of the fact that they’re using those funds themselves. This partnership saves taxpayer dollars for other programs.”

Two of the hitchhikers, CUTE and CuPID, are science satellites. CUTE is funded by NASA and managed by the University of Colorado’s Laboratory for Atmospheric and Space Physics (LASP) in Boulder, Colorado. The little satellite will carry a space telescope and a spectroscope, measuring near-ultraviolet light to learn about the atmospheres of planets outside our solar system. Specifically, they’ll be looking at escaping gases from “hot Jupiters” – large planets that orbit close to their parent stars. The team will study how these planets lose atmosphere in their suns’ heat, to better understand how likely atmospheres are to survive on all types of planets.

University of Colorado graduate student Arika Egan leads installation of the CUTE CubeSat into the EFS dispenser system at Vandenberg Space Force Base on July 23, 2021. Credit: NASA / WFF
University of Colorado graduate student Arika Egan leads installation of the CUTE CubeSat into the EFS dispenser system at Vandenberg Space Force Base on July 23, 2021. Credit: NASA / WFF

CUTE is smaller than the average space telescope, and the team is excited to push the envelope technologically as well as scientifically. “The cool story of CUTE is how all the ambitions we packed in at the beginning came together in the end,” said project scientist Brian Fleming, a researcher at the University of Colorado-Boulder. “In the early days, it was a big challenge to get the science performance we needed from this little ‘cereal box.’ We approached it with a little bit of fun—every time we came up with a new crazy idea, we said ‘okay, let’s try that too.’ That approach really paid off, and CUTE can do some amazing things for its size.”

The second science CubeSat, CuPID, will take measurements closer to home — this mission will study the interactions between the Sun’s plasma and Earth’s magnetosphere, or the protective “bubble” formed by Earth’s magnetic field that keeps harmful solar radiation away from the surface.

(To learn more about CuPID, check out their spotlight here.)

Cesium Satellites 1 and 2 are experimental satellites owned by CesiumAstro, an aerospace company that specializes in space communications. These CubeSats will test an antenna technology called an active phased array, which uses electromagnetic interference to move a signal beam without moving the physical antenna. This technology could make future satellites easier to use and repair, with fewer moving parts to break down. “Riding along with Landsat 9 provides Cesium Mission 1 with the opportunity to test their products in space before selling them to consumers,” said Scott Carnahan, Cesium Mission 1 manager.

Delivering the CUTE satellite marked a bittersweet moment, since it’s been “this presence with us for almost four years,” said CUTE lead investigator Kevin France, an associate professor at the University of Colorado.

“Right now, I’m most excited to hear the first beep back from the satellite on launch day,” Carnahan said. “When you go through all the tribulations to get a satellite up to orbit, you want it to get up there and be safe. That will be the most exciting beep I think I’ll ever hear.”

Landsat 9 is a partnership between NASA and the U.S. Geological Survey.