EGU24-21231, updated on 11 Mar 2024
https://doi.org/10.5194/egusphere-egu24-21231
EGU General Assembly 2024
© Author(s) 2024. This work is distributed under
the Creative Commons Attribution 4.0 License.

Tropical Cyclone and Convective Storm Observations with the NASA TROPICS Constellation Mission

William Blackwell and the TROPICS Science Team
William Blackwell and the TROPICS Science Team
  • A full list of authors appears at the end of the abstract

Four NASA TROPICS Earth Venture (EVI-3) CubeSat constellation satellites were successfully launched into orbit on May 8 and May 25, 2023 (two CubeSats in each of the two launches).  TROPICS is now providing nearly all-weather observations of precipitation horizontal structure, cloud ice, and 3-D temperature and humidity at high temporal resolution to conduct high-value science investigations of tropical cyclones. TROPICS is providing rapid-refresh microwave measurements (median refresh rate of approximately 60 minutes for the baseline mission) over the tropics that can be used to observe the thermodynamics of the troposphere and precipitation structure for storm systems at the mesoscale and synoptic scale over the entire storm lifecycle. Hundreds of high-resolution images of tropical cyclones have been captured thus far by the TROPICS mission, revealing detailed structure of the eyewall and surrounding rain bands.  The new 205-GHz channel in particular (together with a traditional channel near 92 GHz) is providing new information on the inner storm structure, and, coupled with the relatively frequent revisit and low downlink latency, is already informing tropical cyclone analysis at operational centers.

The TROPICS constellation mission comprises four 3U CubeSats (5.4 kg each) in two low-Earth orbital planes inclined at approximately 33 degrees with a 550-km altitude. Each CubeSat comprises a Blue Canyon Technologies bus and a high-performance radiometer payload to provide temperature profiles using seven channels near the 118.75 GHz oxygen absorption line, water vapor profiles using three channels near the 183 GHz water vapor absorption line, imagery in a single channel near 90 GHz for precipitation measurements (when combined with higher resolution water vapor channels), and a single channel at 205 GHz that is more sensitive to precipitation-sized ice particles. TROPICS spatial resolution and measurement sensitivity is comparable with current state-of-the-art observing platforms. Data is downlinked to the ground via the KSAT-Lite ground network with latencies better than one hour. NASA's Earth System Science Pathfinder (ESSP) Program Office approved the separate TROPICS Pathfinder mission, which launched into a sun-synchronous orbit on June 30, 2021, in advance of the TROPICS constellation mission as a technology demonstration and risk reduction effort. The TROPICS Pathfinder mission continues has yielded useful data for 30+ months of operation and has provided an opportunity to checkout and optimize all mission elements prior to the primary constellation mission.

TROPICS Science Team:

Scott Braun, Chris Kidd, Toshi Matsui, Chris Velden, Tom Greenwald, Jeff Hawkins, Derrick Herndon, Ralf Bennartz, Mark DeMaria, Galina Chirokova, Jason Dunion, Frank Marks, Robert Rogers, Kelly Ryan, Bachir Annane, Trey Alvey, Brittany Dahl, and Kerri Cahoy

How to cite: Blackwell, W. and the TROPICS Science Team: Tropical Cyclone and Convective Storm Observations with the NASA TROPICS Constellation Mission, EGU General Assembly 2024, Vienna, Austria, 14–19 Apr 2024, EGU24-21231, https://doi.org/10.5194/egusphere-egu24-21231, 2024.