Dispersion: Difference between revisions

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#<div class="definition"><div class="short_definition">The [[variation]] of the [[complex index of refraction]] with [[frequency]] (or, equivalently,  [[wavelength]] in [[free space]]), sometimes classified as [[normal]] (if ''n'' increases with increasing frequency)  or [[anomalous]] (if ''n'' decreases with increasing frequency).</div><br/> <div class="paragraph">But there is nothing anomalous about [[anomalous dispersion]]: Every material substance exhibits  anomalous dispersion at some frequencies. Dispersion is a consequence of the inherent frequency-  dependent response of individual atoms and molecules to excitation by a time-harmonic [[field]]. By  means of dispersion a [[beam]] of [[light]] composed of many frequencies can be spatially separated  (angular dispersion) into its components as, for example, with a prism. [[Rainbows]] and [[halos]] owe  their colors to angular dispersion.</div><br/> </div>
#<div class="definition"><div class="short_definition">The [[variation]] of the [[complex index of refraction]] with [[frequency]] (or, equivalently,  [[wavelength]] in [[free space]]), sometimes classified as [[normal]] (if ''n'' increases with increasing frequency)  or [[anomalous]] (if ''n'' decreases with increasing frequency).</div><br/> <div class="paragraph">But there is nothing anomalous about [[anomalous dispersion]]: Every material substance exhibits  anomalous dispersion at some frequencies. Dispersion is a consequence of the inherent frequency-  dependent response of individual atoms and molecules to excitation by a time-harmonic [[field]]. By  means of dispersion a [[beam]] of [[light]] composed of many frequencies can be spatially separated  (angular dispersion) into its components as, for example, with a prism. [[Rainbows]] and [[halo|halos]] owe  their colors to angular dispersion.</div><br/> </div>
#<div class="definition"><div class="short_definition">The spreading of atmospheric constituents, such as [[air pollutants]].</div><br/> <div class="paragraph">Dispersion can be the result of [[molecular diffusion]], turbulent [[mixing]], and mean [[wind shear]].  The displacement or [[advection]] of polluted air by the mean wind is usually called [[transport]] rather  than dispersion. The amount of dispersion is usually described statistically by the [[standard deviation]]  (&#x003c3;<sub>''x''</sub>, &#x003c3;<sub>''y''</sub> and &#x003c3;<sub>''z''</sub>) of [[pollutant]] particle locations (''x'', ''y'', ''z'') from the pollutant puff center-of-  mass for isolated short releases such as explosions, or from the [[plume]] centerline for continuous  emissions such as from a smokestack. For a plume, the local Cartesian [[coordinate system]] can be  aligned with the ''x'' axis pointing in the mean wind direction at plume centerline height, allowing  the [[crosswind]] and vertical dispersion to be described by &#x003c3;<sub>''y''</sub> and &#x003c3;<sub>''z''</sub>, respectively.</div><br/> </div>
#<div class="definition"><div class="short_definition">The spreading of atmospheric constituents, such as [[air pollutants]].</div><br/> <div class="paragraph">Dispersion can be the result of [[molecular diffusion]], turbulent [[mixing]], and mean [[wind shear]].  The displacement or [[advection]] of polluted air by the mean wind is usually called [[transport]] rather  than dispersion. The amount of dispersion is usually described statistically by the [[standard deviation]]  (&#x003c3;<sub>''x''</sub>, &#x003c3;<sub>''y''</sub> and &#x003c3;<sub>''z''</sub>) of [[pollutant]] particle locations (''x'', ''y'', ''z'') from the pollutant puff center-of-  mass for isolated short releases such as explosions, or from the [[plume]] centerline for continuous  emissions such as from a smokestack. For a plume, the local Cartesian [[coordinate system]] can be  aligned with the ''x'' axis pointing in the mean wind direction at plume centerline height, allowing  the [[crosswind]] and vertical dispersion to be described by &#x003c3;<sub>''y''</sub> and &#x003c3;<sub>''z''</sub>, respectively.</div><br/> </div>
#<div class="definition"><div class="short_definition">In [[statistics]], the [[scattering]] (or degree thereof) of the values of a [[frequency distribution]]  from their average.</div><br/> </div>
#<div class="definition"><div class="short_definition">In [[statistics]], the [[scattering]] (or degree thereof) of the values of a [[frequency distribution]]  from their average.</div><br/> </div>

Latest revision as of 15:48, 25 April 2012



dispersion

  1. The variation of the complex index of refraction with frequency (or, equivalently, wavelength in free space), sometimes classified as normal (if n increases with increasing frequency) or anomalous (if n decreases with increasing frequency).

    But there is nothing anomalous about anomalous dispersion: Every material substance exhibits anomalous dispersion at some frequencies. Dispersion is a consequence of the inherent frequency- dependent response of individual atoms and molecules to excitation by a time-harmonic field. By means of dispersion a beam of light composed of many frequencies can be spatially separated (angular dispersion) into its components as, for example, with a prism. Rainbows and halos owe their colors to angular dispersion.

  2. The spreading of atmospheric constituents, such as air pollutants.

    Dispersion can be the result of molecular diffusion, turbulent mixing, and mean wind shear. The displacement or advection of polluted air by the mean wind is usually called transport rather than dispersion. The amount of dispersion is usually described statistically by the standard deviationx, σy and σz) of pollutant particle locations (x, y, z) from the pollutant puff center-of- mass for isolated short releases such as explosions, or from the plume centerline for continuous emissions such as from a smokestack. For a plume, the local Cartesian coordinate system can be aligned with the x axis pointing in the mean wind direction at plume centerline height, allowing the crosswind and vertical dispersion to be described by σy and σz, respectively.

  3. In statistics, the scattering (or degree thereof) of the values of a frequency distribution from their average.


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