What is the Group Velocity of Infrared Radiation in a Dispersive Medium?

AI Thread Summary
The discussion revolves around calculating the group velocity of infrared radiation in a dispersive medium with a refractive index of 1.4505. Participants are trying to derive the group velocity using the relationship between speed, wavelength, and frequency, specifically focusing on the formula dw/dk = c/(n + w(dw/dn)). There is a need to convert the given dn/dλair into dw/dn to proceed with the calculation. Users reference external resources for additional expressions and differentiation techniques but express difficulty in applying these concepts. The conversation highlights the complexities of calculating group velocity in dispersive media.
nathangrand
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Infrared radiation, of wavelength λair = 1um in air, travels through a
dispersive medium with refractive index n = 1.4505 and with
dn/dλair = -0.01 per um at this wavelength. Calculate the speed at which the
radiation carries information.

So know that

c/n = λf

radiation carries information at group velocity dw/dk

can also show that dw/dk = c/(n + w(dw/dn))

but don't know where to go from here

feel http://en.wikipedia.org/wiki/Group_velocity has some useful expression in alternative expressions but need to be able to show, and can't
 
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w is angular frequency. In the other expression are formula needed to calculate w. The convert dn/d(lambda) into dw/dn.
 
how?
 
Take at look at the link you posted in the other expressions sections. It all there.
 
I know the expressions are there, I just can't fiddle around with the differetiation
 

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