Difference between revisions of "Radar reflectivity"

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<div class="definition"><div class="short_definition">In general, a measure of the efficiency of a [[radar]] target in intercepting and  returning radio [[energy]]. It depends upon the size, shape, [[aspect]], and [[dielectric]] properties of the  [[target]].</div><br/> <div class="paragraph">It includes not only the effects of [[reflection]] but also [[scattering]] and [[diffraction]]. In particular,  the radar reflectivity of a meteorological target depends upon such factors as 1) the number of  [[hydrometeors]] per unit volume; 2) the sizes of the hydrometeors; 3) the physical state of the  hydrometeors ([[ice]] or water); 4) the shape or shapes of the individual elements of the group; and  5) if asymmetrical, their aspect with respect to the radar. The radar reflectivity &eta; has [[dimensions]]  of area per unit volume (e.g., cm<sup>2</sup>m<sup>&minus;3</sup>, or, more commonly, cm<sup>&minus;1</sup> or m<sup>&minus;1</sup>) and is defined by  <div class="display-formula"><blockquote>[[File:ams2001glos-Re6.gif|link=|center|ams2001glos-Re6]]</blockquote></div> where ''N''<sub>''i''</sub> is the number of hydrometeors per unit volume with backscattering cross section &sigma;<sub>''i''</sub> and  the summation is over all the hydrometeors in a unit volume. For spherical hydrometeors small  enough compared with the [[wavelength]] for the [[Rayleigh scattering]] approximation to be valid,  the [[radar cross section]] is related to [[particle]] size by  <div class="display-formula"><blockquote>[[File:ams2001glos-Re7.gif|link=|center|ams2001glos-Re7]]</blockquote></div> where &lambda; is the wavelength, ''D'' the diameter of the hydrometeor, and ''K'' a [[dielectric factor]] defined  by  <div class="display-formula"><blockquote>[[File:ams2001glos-Re8.gif|link=|center|ams2001glos-Re8]]</blockquote></div> where ''m'' is the [[complex index of refraction]] of the hydrometeor. <br/>''See'' [[radar equation]], [[radar  reflectivity]]</div><br/> </div>
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<div class="definition"><div class="short_definition">In general, a measure of the efficiency of a [[radar]] target in intercepting and  returning radio [[energy]]. It depends upon the size, shape, [[aspect]], and [[dielectric]] properties of the  [[target]].</div><br/> <div class="paragraph">It includes not only the effects of [[reflection]] but also [[scattering]] and [[diffraction]]. In particular,  the radar reflectivity of a meteorological target depends upon such factors as 1) the number of  [[hydrometeors]] per unit volume; 2) the sizes of the hydrometeors; 3) the physical state of the  hydrometeors ([[ice]] or water); 4) the shape or shapes of the individual elements of the group; and  5) if asymmetrical, their aspect with respect to the radar. The radar reflectivity &eta; has [[dimensions]]  of area per unit volume (e.g., cm<sup>2</sup>m<sup>-3</sup>, or, more commonly, cm<sup>-1</sup> or m<sup>-1</sup>) and is defined by  <div class="display-formula"><blockquote>[[File:ams2001glos-Re6.gif|link=|center|ams2001glos-Re6]]</blockquote></div> where ''N''<sub>''i''</sub> is the number of hydrometeors per unit volume with backscattering cross section &sigma;<sub>''i''</sub> and  the summation is over all the hydrometeors in a unit volume. For spherical hydrometeors small  enough compared with the [[wavelength]] for the [[Rayleigh scattering]] approximation to be valid,  the [[radar cross section]] is related to [[particle]] size by  <div class="display-formula"><blockquote>[[File:ams2001glos-Re7.gif|link=|center|ams2001glos-Re7]]</blockquote></div> where &lambda; is the wavelength, ''D'' the diameter of the hydrometeor, and ''K'' a [[dielectric factor]] defined  by  <div class="display-formula"><blockquote>[[File:ams2001glos-Re8.gif|link=|center|ams2001glos-Re8]]</blockquote></div> where ''m'' is the [[complex index of refraction]] of the hydrometeor. <br/>''See'' [[radar equation]], [[radar reflectivity|radar  reflectivity]]</div><br/> </div>
 
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Latest revision as of 16:42, 25 April 2012



radar reflectivity

In general, a measure of the efficiency of a radar target in intercepting and returning radio energy. It depends upon the size, shape, aspect, and dielectric properties of the target.

It includes not only the effects of reflection but also scattering and diffraction. In particular, the radar reflectivity of a meteorological target depends upon such factors as 1) the number of hydrometeors per unit volume; 2) the sizes of the hydrometeors; 3) the physical state of the hydrometeors (ice or water); 4) the shape or shapes of the individual elements of the group; and 5) if asymmetrical, their aspect with respect to the radar. The radar reflectivity η has dimensions of area per unit volume (e.g., cm2m-3, or, more commonly, cm-1 or m-1) and is defined by
ams2001glos-Re6
where Ni is the number of hydrometeors per unit volume with backscattering cross section σi and the summation is over all the hydrometeors in a unit volume. For spherical hydrometeors small enough compared with the wavelength for the Rayleigh scattering approximation to be valid, the radar cross section is related to particle size by
ams2001glos-Re7
where λ is the wavelength, D the diameter of the hydrometeor, and K a dielectric factor defined by
ams2001glos-Re8
where m is the complex index of refraction of the hydrometeor.
See radar equation, radar reflectivity