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In optics, Miller's Rule is an empirical rule which gives an estimate of the order of magnitude of the nonlinear coefficient.

More formally, it states that the coefficient of the second order electric susceptibility response (χ2) is proportional to the product of the first-order susceptibilities (χ1) at the three frequencies which χ2 is dependant upon.[1] The proportionality coefficient is known as Miller's coefficient δ.

Definition

The first order susceptibility response is given by:

χ1(ω)=Nq2mε01ω02ω2iωτ

where:

For simplicity, we can define D(ω), and hence rewrite χ1:

D(ω)=1ω02ω2iωτ
χ1(ω)=Nq2ε0m1D(ω)

The second order susceptibility response is given by:

χ2(2ω)=Nq3ζ2ε0m21D(2ω)D(ω)2

where ζ2 is the first anharmonicity coefficient. It is easy to show that we can thus express χ2 in terms of a product of χ1

χ2(2ω)=ε02mζ2N2q3χ1(ω)χ1(ω)χ1(2ω)

The constant of proportionality between χ2 and the product of χ1 at three different frequencies is Miller's coefficient:

δ=ε02mζ2N2q3

References

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