NEW YORK — A rocket carrying seven different satellites, including one that will attempt to deploy a small solar sail into orbit, successfully blasted off from an island in Alaska Nov. 19.
The Minotaur 4 rocket launched at 8:24 EST from the Alaska Aerospace Corp.’s Kodiak Launch Complex. The rocket’s many different payloads will attempt to demonstrate several new space technologies, including novel command and control frameworks and satellite propulsion systems — all while keeping costs down.
“This provides a low-cost, rideshare capability,” Mark Boudreaux of NASA’s Marshall Space Flight Center in Huntsville, Ala., told reporters prior to the launch. Boudreaux is project manager of FASTSAT, one of the satellites included in the launch.
NASA expects to complete FASTSAT’s on-orbit commissioning by Dec. 1 and spend 180 days conducting science operations.
Built by Dulles, Va.-based Orbital Sciences Corp., the Minotaur 4 rocket delivered all seven satellites, which carry a total of 16 separate experiments among them, to an orbit 650 kilometers above Earth. The $170 million mission, STP-S26, is part of the U.S. Air Force’s Space Test Program.
Here is what is on board:
- NASA’s FASTSAT (Fast, Affordable Science and Technology Satellite) weighs about 148 kilograms and is about the size of a washing machine. It is part of a broader NASA effort to find ways to perform research in space cheaply and reliably.
The agency spent less than $12 million developing the spacecraft, agency officials said.
FASTSAT is carrying six different scientific experiments. One of those is a smaller satellite called NanoSail-D, a 3.9-kilogram probe designed to eject from FASTSAT and deploy a solar sail in orbit. Solar sails catch photons from the sun much as ships’ sails catch the wind.
NanoSail-D will use its solar sail to deorbit itself, potentially demonstrating a new way to bring satellites and debris back to Earth without any chemical propellant, NASA officials have said.
Also onboard FASTSAT are three NASA instruments designed to monitor space weather, as well as two payloads managed by the U.S. Air Force. One is a low-cost star-tracking instrument, and the other is a device that will evaluate techniques used to measure how beams of light move through Earth’s atmosphere.
- NASA’s O/OREOS (Organism/Organic Exposure to Orbital Stresses) is another demonstration satellite that was developed on the cheap (less than $1.75 million, officials said).
O/OREOS is about the size of a loaf of bread and weighs 5.5 kilograms. It contains two experiments that will activate once the nanosatellite reaches low Earth orbit.
One of these will characterize how microbes grow and reproduce in space, as well as how they adapt to the stresses of the space environment. The other will look at how space conditions affect four different classes of organic molecules, which are the building blocks of life.
- The U.S. Air Force’s STPSat-2 microsatellite is the Minotaur 4’s primary payload. STPSat-2 carries two payloads of its own: the Ocean Data Telemetry Microsat Link, which will relay data from ocean and terrestrial sensors, and the Space Phenomenology Experiment, which will evaluate sensor compatibility in space.
STPSat-2 will be the first satellite operated by a new command and control system called the Multi-Mission Space Operations Center. This ground system is designed to fly multiple constellations of spacecraft with various missions.
- Also aboard the Minotaur are three other satellites called FASTRAC, FalconSat-5 and RAX.
FASTRAC — short for Formation Autonomy Spacecraft with Thrust, Relnav, Attitude and Crosslink — was developed by graduate students and undergrads at the University of Texas, Austin.
FASTRAC consists of two satellites, each about the size of two car tires, that will separate from each other in orbit to demonstrate communication and coordination capabilities.
FalconSat-5 also was built by students — cadets at the Air Force Academy in Colorado Springs, Colo. The $11 million microsatellite carries several different payloads, which will monitor space weather and its effects on radio signals.
The Radio Aurora Explorer, or RAX, is a 2.8-kilogram nanosatellite. It is a joint effort of the University of Michigan, Ann Arbor, and SRI International. The U.S. National Science Foundation is the project’s sponsor.
RAX’s primary mission is to study dense plasma clouds in Earth’s upper atmosphere. These clouds can disrupt communications between Earth and orbiting spacecraft, and RAX’s operators hope the little satellite’s measurements can help minimize communication problems in the future.
All of these satellites were launched as part of the U.S. Department of Defense’s Space Test Program, which is managed by the Air Force.
Because this was the STP’s 26th small launch vehicle mission, it is being called STP-S26.
The launch marked the third flight of the Minotaur 4 rocket. The rocket first reached suborbital space in April and it made its first orbital mission in September.
