NASA Sounding Rocket Observing Nitric Oxide in Polar Night
Aurora, also known as the northern lights, are a sight to behold as they dance across the sky when solar winds collide with the Earth’s atmosphere.
Bill McClintock, PolarNOx co-investigator, monitors a payload test at NASA’s Wallops Flight Facility.
However, they also contribute to a process that has an adverse impact on the Earth’s ozone as nitric oxide is created during the auroral light show.
Nitric Oxide transport in Earth’s polar region.
To better understand the abundance of nitric oxide in the polar atmosphere, NASA will launch the Polar Night Nitric Oxide or PolarNOx experiment from the Poker Flat Research Range operated by the University of Alaska, Fairbanks.
PolarNOx will fly on a NASA Black Brant IX suborbital sounding rocket between 8:04 and 9:04 a.m. EST (4:04 and 5:04 a.m. AST) on Jan. 26, 2020. The launch window runs through Feb. 8 and opens 3 – 4 minutes earlier each day.
Scott Bailey, PolarNOx principal investigator from Virginia Tech in Blacksburg, Virginia, said, “The aurora creates nitric oxide (NO), but in the polar night, unlike the sunlit atmosphere, there is no significant process for destroying the nitric oxide. We believe it builds up to large concentrations. The purpose of our rocket is to measure the abundance and especially the altitude of peak abundance for the nitric oxide. We don’t know the altitude at which the nitric oxide settles.”
“Nitric oxide under appropriate conditions can be transported to the stratosphere where it will catalytically destroy ozone,” Bailey said. “Those changes in ozone can lead to changes in stratospheric temperature and wind and may even impact the circulation near Earth’s surface.”
Nitric oxide in the northern regions exists between 53 and 93 miles altitude. During the rocket flight a star tracker will lock on to the star Gamma Pegasi.
“PolarNOx will observe starlight with a high spectral resolution UV spectrograph operating near 215 nanometers. Attenuation of the starlight by NO is used to obtain an NO altitude profile," said Bill McClintock, co-investigator and lead instrument scientist from the Laboratory of Atmospheric and Space Physics, University of Colorado in Boulder.
“The payload with the spectrograph is targeted to fly to an altitude of 161 miles. The goal is to get the most time possible observing both the star brightness above the nitric oxide and where the peak NO exists between 62 and 68 miles altitude,” McClintock said.
This is the second flight of PolarNOx from Poker Flat. “In 2017 we experienced an electronics failure during the flight. While we did get the important part of the data, the mission wasn’t a total success. We did upgrade the electronics for this reflight so we look forward to a much more successful mission,” Bailey said.
The University of Alaska Fairbanks Geophysical Institute has established a subscription-based text messaging service for anyone interested in receiving updates and links to launch range communications or stream broadcasts. Subscribers also will be notified when the count drops below T-10 minutes, at which time a launch is likely to occur. To subscribe to the messaging service text PFRRLAUNCHES to 33222.
Source: U.S. National Aeronautics and Space Administration
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