Europa Finnish HD HARMONIE (3 days) new.Tropical cyclone tracks (ECMWF/Ensemble).Looking ahead, NOAA researchers continue to investigate the next generation of weather radar technology including phased array, while extending the service life of the stalwart NEXRAD system. Stronger return in the tip of the hook-shaped echo is a “debris ball” signature (denoted by whiteĪrrow) caused by debris being lifted by a tornado. NEXRAD image of a tornadic storm in northeastern Alabama, Apr. One of the most significant updates to the NEXRAD systems is the integration of dual polarization technology, a type of radar that allowed forecasters to receive information about precipitation size and shape, thereby leading to better rainfall estimates, flood warnings, and more. Currently, a network of 159 NEXRADs are in operation across the country, having undergone several upgrades over the last 20 years of use. Increased data resolution provided by the NEXRAD gave forecasters the ability to see storms in greater detail, while Doppler velocities allowed forecasters to see wind fields and possible rotation within thunderstorms. This new capability would allow forecasters to not only see the location and intensity of precipitation or storm movement, but the movement of the precipitation and winds within the storm itself.Īfter a long decade of testing that spanned the entire 1980s, the NOAA National Severe Storms Laboratory and their partners deployed the latest-and-greatest radar technology in 1992: Next-Generation Radar (NEXRAD), a system that offered several improvements for the NWS. By the 1970s, researchers began developing a new generation of radar, one that would incorporate revolutionary Doppler techniques. After some refining, the Weather Bureau rolled out its first network of radars in 1959.Īs technology continued to improve, radar did the same: newer, more reliable computers quickly became available for the most accurate data possible. Weather Bureau scientists and technicians recognized the strengths and limitations of these older systems and began to modify and update the technology to better suit the needs of short-term forecasting. However, much of the donated equipment was specifically designed for military use. Upon further investigation, it was determined these “echoes” were caused by precipitation thus, the idea to use radar technology for meteorological purposes was born.Īt the end of the war, the military donated at least 25 radar systems to the Weather Bureau, marking the beginnings of the US weather radar system. Using this groundbreaking technology to scan the skies for incoming airplanes, radar analysts noted that, during periods of heavy or intense weather, the radar would return strange signals and patterns. However, the use of radar for weather observations was discovered unintentionally. In order to gain an advantage in the war, the US and Great Britain decided to pool all of their radar information, resulting in the development of the earliest modern radar. With the United States’ entry into World War II, the need for accelerated radar development was fully realized, primarily by Allied powers. From this baseline discovery, radar technology, knowledge, and experimentation began enthusiastically. He discovered that electromagnetic waves could reflect off of various objects, and even be focused into beams by reflectors. In fact, the fundamental principles of radar were first observed in late-19th century Europe by Henreich Hertz, a physicist. It is true in a way, but only to the extent that technicians and aviators in the war streamlined the technology and produced systems in great quantities. While it is commonly assumed that radar was a byproduct of military necessity in World War II, that isn’t the whole story. Though today’s radar has been adapted for meteorological application, the science behind this revolutionary technology came into being more than a century ago. A crucial element of modern meteorology, Radio Detection and Ranging, commonly known as radar, is used today in forecasting weather events like rain, sleet, snow and tornadoes.
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