netcdf gucxprecipradarsquireM1.c1.20220331.164233 { dimensions: time = 1 ; y = 161 ; x = 161 ; variables: int64 time(time) ; time:units = "days since 2022-03-31 16:42:33.000000" ; time:calendar = "standard" ; double lat(y) ; lat:long_name = "North latitude" ; lat:units = "degree_N" ; lat:standard_name = "latitude" ; lat:valid_min = "-90" ; lat:valid_max = "90" ; double y(y) ; y:_FillValue = NaN ; y:standard_name = "projection_y_coordinate" ; y:long_name = "Y distance on the projection plane from the origin" ; y:axis = "Y" ; y:units = "m" ; double lon(x) ; lon:long_name = "East longitude" ; lon:units = "degree_E" ; lon:standard_name = "longitude" ; lon:valid_min = "-180" ; lon:valid_max = "180" ; double x(x) ; x:_FillValue = NaN ; x:standard_name = "projection_x_coordinate" ; x:long_name = "X distance on the projection plane from the origin" ; x:axis = "X" ; x:units = "m" ; double z(time, y, x) ; z:long_name = "Z distance on the projection plane from the origin" ; z:units = "m" ; z:standard_name = "projection_z_coordinate" ; z:axis = "Z" ; z:positive = "up" ; double DBZ(time, y, x) ; DBZ:_FillValue = NaN ; DBZ:long_name = "Equivalent Radar Reflectivity Factor" ; DBZ:units = "dBZ" ; DBZ:standard_name = "equivalent_reflectivity_factor" ; DBZ:coordinates = "lon lat z" ; double corrected_reflectivity(time, y, x) ; corrected_reflectivity:_FillValue = NaN ; corrected_reflectivity:long_name = "Corrected reflectivity" ; corrected_reflectivity:units = "dBZ" ; corrected_reflectivity:standard_name = "corrected_equivalent_reflectivity_factor" ; corrected_reflectivity:coordinates = "lon lat z" ; double rain_rate_A(time, y, x) ; rain_rate_A:_FillValue = NaN ; rain_rate_A:long_name = "Rainfall Rate from Specific Attenuation" ; rain_rate_A:units = "mm/hr" ; rain_rate_A:comment = "Rain rate calculated from specific_attenuation, R=43.5*specific_attenuation**0.79, note R=0.0 where norm coherent power < 0.4 or rhohv < 0.8" ; rain_rate_A:valid_min = "0.0" ; rain_rate_A:valid_max = "400.0" ; rain_rate_A:coordinates = "elevation azimuth range" ; rain_rate_A:standard_name = "rainfall_rate" ; double snow_rate_ws88diw(time, y, x) ; snow_rate_ws88diw:_FillValue = NaN ; snow_rate_ws88diw:long_name = "Snowfall rate from Z using WSR 88D High Plains" ; snow_rate_ws88diw:units = "mm/h" ; snow_rate_ws88diw:standard_name = "snowfall_rate" ; snow_rate_ws88diw:valid_min = "0" ; snow_rate_ws88diw:valid_max = "500" ; snow_rate_ws88diw:swe_ratio = "13.699" ; snow_rate_ws88diw:A = "40" ; snow_rate_ws88diw:B = "2" ; snow_rate_ws88diw:coordinates = "lon lat z" ; double snow_rate_m2009_1(time, y, x) ; snow_rate_m2009_1:_FillValue = NaN ; snow_rate_m2009_1:long_name = "Snowfall rate from Z using Matrosov et al.(2009) Braham(1990) 1" ; snow_rate_m2009_1:units = "mm/h" ; snow_rate_m2009_1:standard_name = "snowfall_rate" ; snow_rate_m2009_1:valid_min = "0" ; snow_rate_m2009_1:valid_max = "500" ; snow_rate_m2009_1:swe_ratio = "13.699" ; snow_rate_m2009_1:A = "67" ; snow_rate_m2009_1:B = "1.28" ; snow_rate_m2009_1:coordinates = "lon lat z" ; double snow_rate_m2009_2(time, y, x) ; snow_rate_m2009_2:_FillValue = NaN ; snow_rate_m2009_2:long_name = "Snowfall rate from Z using Matrosov et al.(2009) Braham(1990) 2" ; snow_rate_m2009_2:units = "mm/h" ; snow_rate_m2009_2:standard_name = "snowfall_rate" ; snow_rate_m2009_2:valid_min = "0" ; snow_rate_m2009_2:valid_max = "500" ; snow_rate_m2009_2:swe_ratio = "13.699" ; snow_rate_m2009_2:A = "114" ; snow_rate_m2009_2:B = "1.39" ; snow_rate_m2009_2:coordinates = "lon lat z" ; double snow_rate_ws2012(time, y, x) ; snow_rate_ws2012:_FillValue = NaN ; snow_rate_ws2012:long_name = "Snowfall rate from Z using Wolf and Snider (2012)" ; snow_rate_ws2012:units = "mm/h" ; snow_rate_ws2012:standard_name = "snowfall_rate" ; snow_rate_ws2012:valid_min = "0" ; snow_rate_ws2012:valid_max = "500" ; snow_rate_ws2012:swe_ratio = "13.699" ; snow_rate_ws2012:A = "110" ; snow_rate_ws2012:B = "2" ; snow_rate_ws2012:coordinates = "lon lat z" ; double lowest_height(time, y, x) ; lowest_height:_FillValue = NaN ; lowest_height:long_name = "Height of the lowest Radar Gate" ; lowest_height:units = "m" ; lowest_height:standard_name = "height" ; lowest_height:coordinates = "lon lat z" ; // global attributes: :command_line = "" ; :Conventions = "ARM-1.3 CF/Radial instrument_parameters" ; :process_version = "" ; :dod_version = "" ; :site_id = "" ; :platform_id = "" ; :facility_id = "" ; :data_level = "" ; :location_description = "" ; :datastream = "" ; :institution = "U.S. Department of Energy Atmospheric Radiation Measurement (ARM) Climate Research Facility" ; :references = "See XPRECIPRADAR Instrument Handbook" ; :doi = "10.5439/1884979" ; :comment = "This is highly experimental and initial data. There are many known and unknown issues. Please do not use before contacting the Translator responsible scollis@anl.gov" ; :attributions = "This data is collected by the ARM Climate Research facility. Radar system is operated by the radar engineering team radar@arm.gov and the data is processed by the precipitation radar products team. LP code courtesy of Scott Giangrande BNL." ; :known_issues = "False phidp jumps in insect regions. Still uses old Giangrande code. Issues with some snow below melting layer." ; :developers = "Maxwell Grover, ANL. Joseph O\'Brien, ANL. Robert Jackson, ANL. Zachary Sherman, ANL." ; :translator = "https://www.arm.gov/capabilities/instruments/xprecipradar" ; :mentors = "https://www.arm.gov/connect-with-arm/organization/instrument-mentors/list#xprecipradar" ; :source = "Colorado State University\'s X-Band Precipitation Radar (XPRECIPRADAR) (DOI: 10.5439/1844501)" ; :input_datastreams = "xprecipradarcmacppi.c1" ; :fields = "DBZ, corrected_reflectivity, time, lowest_height, rain_rate_A, snow_rate_ws88diw, snow_rate_m2009_1, snow_rate_m2009_2, snow_rate_ws2012, z, y, x, lat, lon" ; :history = "" ; :_NCProperties = "version=2,netcdf=4.9.0,hdf5=1.12.2" ; }