{"references": ["Patrick Eriksson, et al. \"A general database of hydrometeor single scattering properties at microwave and sub-millimeter wavelengths.\" Earth System Science Data 10.3(2018).", "Ekelund Robin, et al. \"Microwave single-scattering properties of non-spheroidal raindrops.\" Atmospheric Measurement Techniques 13.12(2020).", "Ping, Yang, et al. \"Spectrally consistent scattering, absorption, and polarization properties of atmospheric ice crystals at wavelengths from 0.2 to 100 \u03bcm.\" Journal of the Atmospheric Sciences 70.1(2013).", "Shiwen Teng, et al. \"Numerical simulation of raindrop scattering for C-band dual-polarization Doppler weather radar parameters.\" Journal of Quantitative Spectroscopy and Radiative Transfer 213(2018).", "Sanja B Mani\u0107, et al. \"Scattering Calculations for Asymmetric Raindrops during a Line Convection Event: Comparison with Radar Measurements.\" Journal of Atmospheric and Oceanic Technology 35.6(2018).", "M. Thurai, et al. \"Investigating raindrop shapes, oscillation modes, and implications for radio wave propagation.\" Radio Science 49.10(2014).", "Remko Uijlenhoet, et al. \"Opportunistic remote sensing of rainfall using microwave links from cellular communication networks.\" Wiley Interdisciplinary Reviews: Water 5.4(2018).", "Battaglia, Alessandro, et al. \"Characterization of Precipitating Clouds by Ground-Based Measurements with the Triple-Frequency Polarized Microwave Radiometer ADMIRARI.\" Journal of Applied Meteorology and Climatology 49.3(2010)."]}

The database contains non-spherical precipitation particle scattering parameters, including scattering phase functions and integral scattering characteristics, covering frequencies from 3 to 1000Ghz, which can be used for radar detection, microwave transmission and other fields.