Monday, 7 January 2019: 9:45 AM
North 230 (Phoenix Convention Center - West and North Buildings)
Steven C. Reising, Colorado State Univ., Fort Collins, CO; and M. Ogut, Y. Goncharenko, B. Kilmer, P. Kangaslahti, E. Schlecht, X. Bosch-Lluis, J. Jiang, A. Skalare, R. Cofield, N. Chahat, S. Padmanabhan, S. T. Brown, W. Deal, A. Zamora, K. Leong, S. Shih, and G. Mei
High-altitude ice clouds, covering more than 50% of the Earth’s surface, are often produced from deep convection events impacting life on Earth, and these clouds strongly affect Earth’s weather and climate. They play a significant role in Earth’s energy balance and hydrologic cycle through their radiative feedback and precipitation effects, and therefore are crucial for life on Earth. However, our knowledge of ice cloud particle sizes is currently limited. No global satellite measurements of ice particle size in weather systems are available to observe variations in terms of season or climate environment. Only localized in-situ measurements of ice particle sizes are available. Therefore, global measurements of cloud ice particle sizes, along with associated water vapor profiles, in the upper troposphere and lower stratosphere are critically needed to improve knowledge of the role of ice clouds in Earth’s climate, precipitation and cloud processes. Such observations will enable improvements in cloud and moisture distribution models, as well as in precipitation forecasting. Measurements at a range of frequencies in the millimeter- and sub-millimeter wave frequency range from approximately 200 to 900 GHz provide sensitivity to cloud ice particles in the range of a few tens to hundreds of micrometers.
The Tropospheric Water and Cloud ICE (TWICE) instrument is under development to provide global observations of upper tropospheric water vapor and ice particle sizes in clouds and their variation with season and climate environment. TWICE is a wide-band millimeter- and sub-millimeter wave radiometer measuring at 16 frequencies from 118 GHz to 870 GHz. The TWICE instrument is being developed through a collaboration led by Colorado State University (CSU) in partnership with the NASA/Caltech Jet Propulsion Laboratory (JPL) and Northrop Grumman Corporation (NGC). TWICE will use 25-nm InP High Electron Mobility Transistor (HEMT) low-noise amplifier-based (LNA) front-ends operating from about 240 to 870 GHz and integrated into single-module receivers from input feed horn to output post-detection voltage. The amplifier front-end and direct-detection architecture provides low noise at these sub-millimeter wave frequencies, as well as dramatically reduces the required power for operation, as compared to traditional mixer-based heterodyne architectures. TWICE radiometers will perform end-to-end calibration once each scan by viewing both cold space (2.7 K) reflector and an ambient calibration target at a precisely known thermodynamic temperature. TWICE is designed for operation in a 6U-Class satellite (6U CubeSat) with dimensions of up to 34 cm x 20 cm x 10 cm and mass up to 12 kg. TWICE can be easily adapted for high-altitude aircraft operation to raise the TRL level and provide observations for model validation. Finally, the TWICE instrument is adaptable for larger spacecraft form factors in combination with complementary instruments to enhance its scientific capability.
- Indicates paper has been withdrawn from meeting
- Indicates an Award Winner