Abstract:

Single-polarization phased array radar (PAR), which offers access to rapid-update radar data, has been shown to bring operational benefit to warning decision environments. However, dual-polarization PAR ca- pabilities have remained largely unexplored. In this study, an investigation into the potential operational benefits of dual-polarization PAR data is performed using the Advanced Technology Demonstrator (ATD). The ATD’s performance is compared to the National Weather Service radar in Oklahoma City (KTLX). The main dual-polarization signature investigated is the differential reflectivity (ZDR) arc in supercell thunder- storms. Appearance and evolution of ZDR arcs can convey information regarding mesocyclone development and intensification to warning meteorologists. The analysis here focuses on comparing ZDR arcs in ATD and KTLX radar data using both quantitative and qualitative methods. Quantitative analyses will yield explicit differences between the two types of radar, while qualitative analyses help visualize the immediate benefits of dual-polarization PAR data in a warning decision environment. The goal of this study is to explore PAR dual-polarization capabilities in observing the rapidly evolving supercell structures in space and time. It is found that ZDR arcs and their trends are better resolved with the ATD’s improved data quality. Additionally, the ATD detected rapidly-evolving signatures, such as ZDR arc disruptions and descending hail cores, faster and clearer than KTLX.

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