September 24, 2018
NASA’s PMC-Turbo Mission, a $1.4M NASA-funded high-altitude balloon experiment led by PoSSUM Chief Scientist Dr. Dave Fritts, launched from Kiruna, Sweden on 8 July and landed safely in Western Nunavut, Canada five days later after successfully performing the first dedicated high-altitude observations of the atmospheric dynamics leading to turbulence in Earth’s mesosphere by imaging the small-scale structures of noctilucent clouds using specialized camera systems.
Noctilucent clouds (also known as Polar Mesospheric Clouds, or PMCs, when viewed from space) are the highest clouds observed on Earth, typically forming at altitudes near 83km in the summertime at high latitudes in both hemispheres. They are of particular interest as their presence is believed to be a “miner’s canary” for climate change at high altitudes. Despite their remote location, NLCs also appear to provide the best natural laboratory on Earth for the study of the generation and evolution of geophysical turbulence because very thin NLCs enable imaging of these dynamics throughout their life cycle and to the smallest turbulence spatial scales.
From the balloon’s cruising altitude of 38km, fine features of the clouds can be observed that are not able to be observed with the same resolution from the ground due to turbulence at lower altitudes. The images obtained during the campaign will be used to analyze how atmospheric waves generated at lower altitudes dissipate through various instability and turbulence processes. These processes account for the deposition of significant energy and momentum transported by the waves from lower altitudes and play key roles in weather and climate throughout the atmosphere, but are poorly understood at present.
The 1000 kg PMC-Turbo payload included seven custom camera systems designed to capture high-resolution imagery in the low-light environment viewed from the balloon’s cruising altitude. The PMC-Turbo Experiment also supported the first ever balloon-borne lidar provided by the German Space Center (DLR). The lidar, or “laser radar”, successfully measured the varying temperature field in altitude below and above the NLC layer and the depth and intensity of the NLC layer throughout the flight.
PMC-Turbo is a collaboration between Global Atmospheric Technologies and Sciences (GATS), Columbia University, Integrated Spaceflight Services (ISS), the University of Minnesota, the German Aerospace Center (DLR), and Project PoSSUM. PoSSUM Executive Director Dr. Jason Reimuller served as a co-principal investigator of the PMC-Turbo mission and PoSSUM members provided instrument development and testing of the specialized camera system hardware designed to enable these novel measurements and also obtained ancillary imaging in Northern Canada and provided educational outreach expertise to the program. More here:
“Our team is excited to have collected what we believe will be a very valuable data set.” said Dr. Fritts, “We look forward to exploring these dynamics that we hope will provide unique insights into the causes and effects of turbulence in the atmosphere, and which we believe will also have relevance to other geophysical fluids such as oceans, lakes, and other planetary atmospheres.”
Coincident with the launch of PMC-Turbo, a high-altitude airborne observational campaign was conducted from Edmonton, Alta. as part of a partnership between Project PoSSUM and the Royal Canadian Air Force (RCAF) to view NLCs from aircraft. PoSSUM Scientist-Astronaut Candidate Capt. Theon “T.K.” Te Koeti, PoSSUM Executive Director Dr. Jason Reimuller, and PoSSUM Education and Public Outreach Officer Adrien Mauduit conducted these observations using a CT-155 “Hawk”, an advanced supersonic aircraft, in partnership with 15 Wing of the RCAF. More here:
“PMC-Turbo is observing a little-known region of the Earth and revealing details of this highly dynamic and sensitive environment in ways never before achieved.”, said Dr. Reimuller, “combined with improvements in airborne observational methods and the imminent availability of reusable suborbital spacecraft, it is surely an exciting time to be an upper-atmospheric scientist!”
PoSSUM plans to further use the PMC-Turbo camera technology onboard reusable, suborbital launch vehicles (rSLVs) to build tomographic (three-dimensional) models of these mesospheric observables, combined with in-situ measurements, to create models of our mesosphere to a resolution previously untenable. PoSSUM, an acronym for ‘Polar Suborbital Science in the Upper Mesosphere’, is a 501(c)(3) non-profit research and education organization that conducts upper-atmospheric and space technology research while communicating the science through various educational outreach programs. The next PoSSUM citizen-science programs will be held at Embry-Riddle Aeronautical University in Daytona Beach, Fla. from Sept. 29 to Oct. 6, 2018. Interested individuals should apply online at .
Information contained on this page is provided by an independent third-party content provider. This Site make no warranties or representations in connection therewith. If you are affiliated with this page and would like it removed please contact support [at] perpetualwire.com.