RADAR Fall 2011 Meteorology 311What is it? • RADAR – RAdio Detection And Ranging • Transmits electromagnetic pulses toward target. – Tranmission rate is around 100 pulses per second. – Short silent period between pulses. – Pulse repetition frequency (PRF) • Measures the amount of beam that returns to the receiver. – Called reflectivity. – Energy is scattered back to antenna by precipitation size particles. – Back-scattered energy. • Amount of energy return is primarily dependent on three factors: 1. Size of target. 2. Distance from the target. 3. Wavelength of pulse.Essentials  Rayleigh Scattering law  Back-scattered radiation ~ D6.  For collection of equal-size drops ~ 1/λ4.  Returned energy increases rapidly with decreased wavelength.  The wavelength you use depends on what you want to look at or resolve.  Recall what you learned in Mteor 301.  Weather radar: Typically 1 to 20cm.  3 cm for cloud detection, 10 cm for precipitation.Reflectivity values  Reflectivity is measured in decibels (dBZ)  20 dBZ → Precipitation reaches the ground.  Important to realize for chasing.  Rainfall  20-45 dBZ : light to moderate.  40-50 dBZ : Pretty good rainfall.  60-70 dBZ : More than likely hail.  Snowfall  25-30 dBZ : Light to moderate snowfall.  30-35 dBZ : Moderate to heavy snowfall.  35-40 dBZ : Very heavy snowfall (rare) or rimed flakes.  Ice  Ice itself doesn’t have a very high reflectivity.  Why is hail so reflective?  Bright-bandingOperational Radar  A.k.a., the things you see on Gibson Ridge software.  Current radars: WSR-88D’s (NEXRAD) ○ Weather Surveillance Radar made operational in 1988 and are of the doppler variety. ○ Previous radars were WSR-57’s and WSR-74’s. ○ 28 ft diameter dish that rotates at 360º at several tilts. ○ Dual polarization and phased-array are future radar types soon to be implemented.  Course notes pictures.Sites 159 SitesImage provided by Rich Kinney, NWS, Des MoinesImages provided by Rich Kinney, NWS, Des MoinesVCP  Volume coverage pattern  Modes: Convection, shallow precipitation, clear air.  Convection: Two digits starting with a 1.  Shallow precipitation: Two digits starting with a 2.  Clear air: Two digits starting with a 3. ○ Very sensitive, used when there is not precipitation detected in the coverage area.  Multiple PRF Dealiasing Algorithm Group: Three digits, starting with a 1 and followed by the two digit VCP with similar elevation angles.  VCP 31 and VCP 32  Clear air mode, 10 minute complete scan, 0.5 (base) - 4.5 degrees with 5 cuts (0.5, 1.5, 2.5, 3.5, 4.5).  http://www.weathertap.com/guides/graphics/radar/radar_vcp31.gif  VCP 21  Precipitation mode, 6 minute, 0.5 (base) - 19.5 degrees with 9 cuts.  http://www.weathertap.com/guides/graphics/radar/radar_vcp21.gif  VCP 11  Severe Weather (precip mode), 5 minute, 0.5 (base) - 19.5 with 14 cuts  http://www.weathertap.com/guides/graphics/radar/radar_vcp11.gifNewer VCP’s • VCP 211, 212, 221 • Same elevation angles as VCP 11, 12, and 21. • Sachidananda-Zrnic Algorithm (SZ-2) – Reduces range ambiguity for Doppler data.PRF  Pulse repetition frequency  Frequency at which pulses are emitted (pulses per second).  Essentially how long the ‘listening’ stage is (PRT = 1/PRF).  Determines the maximum unambiguous range and maximum unambiguous velocity  Huh?  Rmax = maximum range which a transmitted pulse wave can travel and return to the radar before the next pulse is emitted.  Rmax = C / (2*PRF)  Huh, again?  Vmax = maximum velocity which a Doppler radar can determine unambiguously.  Vmax = ( * PRF) / 4  Purple haze: Radar cannot determine which pulse return signal may have come from.  Also called “Range folding”.  Doppler Dilemma.Products  Base reflectivity: Lowest elevation scan.  Basically used to tell what is out there.  Composite reflectivity:  Composed of the greatest reflectivity from any elevation angle seen from the radar.  Used to reveal the highest reflectivity in all echoes.  Base velocity  Provides basic wind field from the 0.5º elevation scan via Doppler effect.  Radar can only measure motions that have a component along a radial, or essentially toward or away from the radar.  Spectrum width  Spread in the velocity values.  Large spectrum width means a lot of turbulence.  Storm relative motion: Used to detect “mesoscale” circulations.  Mean wind field is “subtracted” from base velocity.  VIL  Vertically integrated liquid water.  Amount of liquid water that the radar detects in a vertical column of the atmosphere for an area of precipitation.  High values are associated with heavy rain or hail.  Echo Tops  Maximum height of precipitation echoes.Base ReflectivityClassic Supercell 0 5 10 Nautical miles Light Rain Moderate/Heavy Rain & Hail Supercell Thunderstorm (top view) Anvil Edge Gust Front WSR-88D Radar Image N Hook echo Hook echo Images provided by Rich Kinney, NWS, Des MoinesComposite Reflectivity • Jetstream - An Online School for Weather: RIDGE radar composite reflectivityCool Stuff • Introduction to NEXRAD Anomalies & ArtifactsTBSSTBSS • National Weather Service Forecast Office - Midland/Odessa Texas • Figure #16.Bright Banding Image provided by Rich Kinney, NWS, Des MoinesRadar fine line 88D can detect subtle differences in humidity and temperature, and the location of boundaries that may be the focus for storm initiation or intensification Image provided by Rich Kinney, NWS, Des MoinesAP • Anomalous propagation.Dual Polarization • Two beams with different polarization directions: one with horizontal polarization (current polarization) and one with vertical polarization • New products useful for: – Precipitation type. – Rain and snow rate estimates. – Identification of aircraft icing conditions. • Reference: http://www.cimms.ou.edu/~kscharf/pol/ – Page produced by Kevin Scharfenberg, who was also an invited speaker at the 2008 Severe Storms and Doppler Radar Conference hosted by the Central Iowa NWA.ZDR – Differential Reflectivity • ZDR ~ 10 log (Ph / Pv ) [db] • Average shape of what you are measuring. • Typical values range from -2 db to 6 db. • Type discriminator – ZDR > 0? – ZDR < 0? – ZDR = 0? • Volume discriminator: