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How could one theoretically predict a material's permittivity? 
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#1
May1213, 12:09 AM

P: 146

I know experimentally, the permittivity of a material is ##\vec D = \epsilon \vec E##, and you can also relate the Polarization to it. So it's basically a response of the material to an applied E field.
But that seems like it would be a fairly complex thing to figure out theoretically. I guess one way would be to, for a given E field applied to a unit cell of the material, see how each atom gets polarized. But that seems like it would be incredibly complicated for unit cells with several atoms and a basis, and each atom having multiple electrons. So I'm wondering how you could figure out the permittivity of a general crystal, like if you were told its interatomic distances, lattice constants, band structure, etc. Is there a better way than what I described above? Thanks! 


#2
May1213, 08:25 AM

Sci Advisor
P: 3,593

Permittivity can be calculated routinely with programs to calculate band structure. The basic approach is described in the article by Adler:
http://prola.aps.org/abstract/PR/v126/i2/p413_1 


#3
May1213, 04:40 PM

P: 146




#4
May1313, 04:01 AM

Sci Advisor
P: 3,593

How could one theoretically predict a material's permittivity?
Basically you use linear response (i.e. perturbation theory) to calculate the change in charge density due to an applied field. This requires you to know the band structure and Bloch states of the material being studied.



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