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| | The author is recognized by the title of Figures Lint. South Dakota is where me and my spouse reside and my family members enjoys it. For many years I've been operating as a payroll clerk. The favorite pastime for my kids and me is to play baseball and I'm trying to make it a occupation.<br><br>my web-site: [http://www.youporntime.com/blog/12800 over the counter std test] |
| {{context|date=January 2013}}
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| In [[complex analysis]] a '''Stokes line''', named after Sir [[George Gabriel Stokes]], is a line in the [[complex plane]] which 'turns on' different kinds of behaviour when one 'passes over' this line – although, somewhat confusingly, this definition is sometimes used for anti-Stokes lines. This article follows the former definition, more common in mathematical literature (but less common in physics literature). When approximating integral equations it is vital to know where the Stokes lines are so as to keep track of exponential smallness.
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| ==The Airy function==
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| The Airy function Ai(''x'') is one of two solutions to a simple differential equation | |
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| :<math>y'' - xy = 0 , \, </math>
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| which it is often useful to approximate for many values of ''x'' – including complex values. If we regard the limit of ''x'' as large and real, and would like to approximate the Airy function for both positive and negative values, we would find that
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| : <math>
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| \begin{align}
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| \mathrm{Ai}(x) &{}\sim \frac{e^{-\frac23x^{3/2}}}{2\sqrt\pi\,x^{1/4}} \\
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| \mathrm{Ai}(-x) &{}\sim \frac{\sin(\frac23x^{3/2}+\frac14\pi)}{\sqrt\pi\,x^{1/4}} \\
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| \end{align}
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| </math>
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| which are two very different expressions. What has happened is that as we have increased the [[Argument (complex analysis)|argument]] of x from 0 to pi (rotating it around through the upper half complex plane) we have crossed a Stokes line, which in this case is at <math>\operatorname{arg}\, x = 2 \pi / 3</math>. A more thorough analysis is possible by defining a new variable <math>\sigma = - 2/3 x^{3/2}</math> with small argument – we find that exponentially small terms are 'turned on' via the [[erf function]]. These small terms then grow, and cause the oscillatory behaviour at arg ''x'' = ''π''.
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| ==Optics==
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| [[File:Stokes shift.svg|thumbnail|right|Stokes and anti-Stokes lines.]]In the context of optics, a Stokes line refers to the radiation of particular wavelengths present in the line spectra associated with [[fluorescence]] and the [[Raman scattering]]. Stokes lines are of longer wavelength than that of the exciting radiation responsible for the fluorescence or Raman effect.
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| The energy of the scattered radiation is less than the incident radiation for the Stokes line and the energy of the scattered radiation is more than the incident radiation for the anti-Stokes line. The energy increase or decrease from the excitation is related to the vibrational energy spacing in the ground electronic state of the molecule and therefore the wavenumber of the Stokes and anti-Stokes lines are a direct measure of the vibrational energies of the molecule. The probability of anti-Stokes transition is much less than the Stokes transition as at [[room temperature]] majority of molecule is present in the lowest vibrational [[Energy level|level]].
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| ==See also==
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| *[[Raman scattering]]
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| *[[Stokes shift]]
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| ==References==
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| {{cite arXiv |last=Witten|first=Ed |eprint=hep-th/1001.2933 |title=Analytic Continuation Of Chern-Simons Theory|year=2010 |version=v4 }}
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| {{DEFAULTSORT:Stokes Line}}
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| [[Category:Optics]]
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| [[Category:Asymptotic analysis]]
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| {{Optics-stub}}
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