WFO Nashville Dual Pol Radar Upgrade In Progress

NWS Nashville WSR-88D to Receive Dual Polarization Upgrade
January 13 - 29, 2012

Picture of WSR-88D Radome  88D in the Winter

During a two-week period, beginning January 13, 2012 and ending January 29, 2012, the Doppler radar in Nashville  (KOHX) used by the National Weather Service Forecast office in Nashville, Tennessee will undergo an upgrade to incorporate dual polarization technology.

During the two-week installation process, the Nashville (KOHX) radar will be taken offline. Neighboring NWS Doppler radars include Paducah, KY (KPAH), Fort Campbell, KY (KHPX), Memphis, TN (KNQA), Huntsville, AL (KHTX), Morristown, TN (KMRX), Jackson, KY (KJKL), Louisville, KY (KLVX), Columbus, MS (KGWX), and the Terminal Doppler Radar at Nashville (TBNA) will be accessible to help monitor weather across Middle Tennessee.

Dual Polarization (or "dual-pol") technology will add an additional    14 products to the suite of data already available to NWS forecasters.     These tools will assist forecasters in the warning and forecast   process.

Why upgrade to Dual Polarization Radar?

By comparing the power and timing of energy returned to the radar from both horizontal and vertical pulses, we can glean information such as the size, shape, and composition of precipitation particles.

What are the Potential Benefits of Dual-Pol?

  • Better estimation of total precipitation
  • Better estimation of the size distribution of hydrometeors
  • Improved ability to identify areas of heavy rainfall (flash flooding potential)
  • Improved detection and mitigation of non-weather echoes
  • Easier identification of the melting layer (helpful for identifying snow levels in higher terrain)
  • Ability to classify precipitation type
  • New severe thunderstorm signatures
  • The full benefit of dual-pol radar, however, will not be fully realized until NWS forecasters and research meteorologists develop real-time expertise.

    What is polarization?

    A radio wave is a set of oscillating electric and magnetic fields, oriented 90 degrees to each other. Polarization of the wave is the direction, or orientation, of the electric field.

    Horizontal Polarization

    The electric field is oriented horizontally, along the x-axis (blue). The magnetic field is oriented vertically along the y-axis (white).

    Horizontal Polarization Graph

    Vertical Polarization

    The electric field is oriented vertically, along the y-axis (orange). The magnetic field is oriented horizontally along the x-axis (white).

    Vertical Polarization Graph

    Current NWS Doppler Radar (horizontally-polarized only)

    Current Doppler radar capability transmits and receives only horizontally polarized radio wave pulses. Therefore, they measure only the horizontal dimension of cloud and precipitation particles.

    Non-Polarized Radar Picture

    "Dual Polarized" Radar

    New dual-pol capability will allow the transmit and receipt of both horizontally and vertically polarized radio wave pulses. Therefore, they measure both the horizontal and vertical dimension of cloud and precipitation particles.

    Dual Pol Radar Picture

    More Information

  • Dual-Polarization Training for non-meteorologist NWS Partners
  • Dual-Polarization Training for NWS Partners that are meteorologists
  • National Severe Storms Laboratory Dual-Pol Page
  • National Severe Storms Laboratory Dual-Pol FAQ Page

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