Wallops Island, VA – NASA managers have given a “go” for a countdown leading to the launch of five suborbital sounding rockets early in the morning March 27th on a science mission that will briefly create a milky white cloud that may be visible along a large portion of the U.S. east coast.
The launch window for the mission will be between 2:00am and 5:00am, Tuesday, March 27th. The countdown will begin at 9:00pm, Monday, March 26th. Clear skies are predicted for the Tuesday launch. However, ground level winds may exceed allowable limits for the flights to occur.The Anomalous Transport Rocket Experiment (ATREX) mission will gather information needed to better understand the process responsible for the high-altitude jet stream located 60 to 65 miles above the surface of the Earth.
As part the mission, the sounding rocket launch team at NASA’s Wallops Flight Facility, Wallops Island, VA, will launch five rockets 80 seconds apart, each of which will release a chemical tracer to create clouds allowing scientists and the public to “see” the winds in space.
A significant criteria for launch to proceed will be clear skies not only at Wallops but also at sites in New Jersey and North Carolina. The temporary clouds may be visible for up to 20 minutes by residents from South Carolina to southern New Hampshire and Vermont.
High in the sky, 60 to 65 miles above Earth’s surface, winds rush through a little understood region of Earth’s atmosphere at speeds of 200 to 300 miles per hour. Lower than a typical satellite’s orbit, higher than where most planes fly, this upper atmosphere jet stream makes a perfect target for a particular kind of scientific experiment: the sounding rocket. Some 35 to 40 feet long, sounding rockets shoot up into the sky for short journeys of eight to ten minutes, allowing scientists to probe difficult-to-reach layers of the atmosphere.
On March 27th, NASA will launch five such rockets in approximately five minutes to study these high-altitude winds and their intimate connection to the complicated electrical current patterns that surround Earth. First noticed in the 1960s, the winds in this jet stream shouldn’t be confused with the lower jet stream located around 30,000 feet, through which passenger jets fly and which is reported in weather forecasts.
This rocket experiment is designed to gain a better understanding of the high-altitude winds and help scientists better model the electromagnetic regions of space that can damage man-made satellites and disrupt communications systems. The experiment will also help explain how the effects of atmospheric disturbances in one part of the globe can be transported to other parts of the globe in a mere day or two.
Determining what drives these winds requires precise understanding of the way the winds move and what kind of turbulence they show. To get an idea of the task at hand, imagine mapping not just the ups and downs of ocean waves but the attendant surf, undertow, and tides, all from 60 miles away and in only 20 minutes.
To accomplish this, the five sounding rockets will launch from NASA’s Wallops Flight Facility in Virginia releasing a chemical tracer into the air. The chemical – a substance called trimethyl aluminum (TMA) — forms milky, white clouds that allow those on the ground to “see” the winds in space and track them with cameras. In addition, two of the rockets will have instrumented payloads to measure pressure and temperature in the atmosphere.
The rockets will be launched on a clear night within a period of minutes, so the trails can all be seen at the same time. The trimethyl aluminum will then be released in space out over the Atlantic Ocean at altitudes from 50 to 90 miles. The cloud tracers will last for up to 20 minutes and will be visible in the mid-Atlantic region, and along the east coast of the United States from parts of South Carolina to New Jersey.
“People have launched single rockets before,” says Larsen. “But the key here is that we’re extending the range of measurements to many hundreds of miles. The furthest rocket will make it half way to Bermuda.”
Sounding rockets are usually launched one or two at a time, so launching five at once will call for specific timing and direction to gather the required data. The rockets will be launched on a clear night March 27th. Scientists will then use special camera equipment to track the five clouds and measure how quickly they move away from each other. They can then plug this information into equations that will describe what kind of turbulence exists in the winds.
One possible kind of turbulence is called three-dimensional turbulence, turbulence much like what one sees flowing down a river and swirling around rocks or in gusting winds on Earth. If this is seen, it would suggest the winds move with laws of motion similar to those governing small-scale waves in water. Such waves might be driven by heat in the atmosphere that varies in the course of a day.
This would jibe with one of the original theories for how the winds are created, and indeed there are those who think of this region as a kind of atmospheric “surf zone” in the sky. Another view is that the winds at that height are too fast to jibe with this model. Moreover, man-made tracers, such as Space Shuttle exhaust, do not break up and dissipate as one might expect from such turbulence, but remain remarkably coherent.
“In 3-D turbulence, one sees complicated movement,” says Larsen. “But there’s a tendency for 2-D turbulence to behave almost in the opposite manner – the airflow coalesces into single streams, like a jet stream.”
This kind of airflow would also be strongly enhanced by the combination of electrical currents in the region and the rate of the Earth’s rotation. Together, this connection might result in the fast, coherent streams of air so far observed.
The rockets being used for the mission are two Terrier-Improved Malemutes, two Terrier-Improved Orions and one Terrier-Oriole. In order for the launches to occur, clear skies are required at three special camera sites located along the coast in Virginia, North Carolina and New Jersey.
NASA has used TMA for decades as part of rocket studies from sites worldwide to study the near-space environment. TMA burns slowly and produces visible light that can be tracked visually and with special camera equipment.
The products of the reaction when TMA is exposed to air or water are aluminum oxide, carbon dioxide and water vapor. Aluminum oxides are used to combat heartburn and to purify drinking water. Also, all three products occur naturally in the atmosphere. The TMA poses no threat to the public during preparation on the ground or during the release in space.
The NASA Visitor Center at Wallops will open at 12:01am, Tuesday, March 27th, for viewing the launches.
To try to spot the sounding rocket trails, follow the launch status updates at:
More information on the ATREX mission is available on the Internet at:
The mission will be web cast beginning at 10:00pm March 26th at:
The mission also can be followed on Ustream at:
Mission status updates will be provided via Twitter at:
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