Is Nonlinear Media Behavior Dependent on Incoming Field?

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Nonlinear optics describes how light interacts with media where the dielectric polarization responds nonlinearly to the electric field. The behavior of a medium as linear or nonlinear is contingent on the strength of the incoming field and the coefficients of the Taylor series expansion (chi coefficients). While all media can theoretically be considered nonlinear, practical behavior often reverts to linearity when higher-order coefficients are negligible. The induced polarization is influenced by both the material properties and the incident field strength. Understanding this relationship is crucial for accurately applying concepts from nonlinear physics.
Niles
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Hi

From Wiki (http://en.wikipedia.org/wiki/Nonlinear_optics): "Nonlinear optics (NLO) is the branch of optics that describes the behaviour of light in nonlinear media, that is, media in which the dielectric polarization P responds nonlinearly to the electric field E of the light."

My question is: In principle, all media are nonlinear in the sense that we can Taylor expand the potential of the electrons, but whether a material behaves linearly or not depends only on the incoming field. Don't you agree?
 
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Whether a medium is non-linear or not depends on the magnitude of the taylor series coefficients (chi(1), chi(2), chi(3) ...).

The induced polarization depends on both the material (the chi's) and the incident field.

Sure all media could be said to be non-linear, but when chi(x>1) are so close to zero as to be unmeasurable, the term becomes inappropriate, and we fall back in regular electromagnetism.
 
I agree with Dr Lots.

You may find the answer in the nonlinear physics books.
 
Thread 'Unexpected irregular reflection signal from a high-finesse cavity'

Thread 'Unexpected irregular reflection signal from a high-finesse cavity'

I am observing an irregular, aperiodic noise pattern in the reflection signal of a high-finesse optical cavity (finesse ≈ 20,000). The cavity is normally operated using a standard Pound–Drever–Hall (PDH) locking configuration, where an EOM provides phase modulation. The signals shown in the attached figures were recorded with the modulation turned off. Under these conditions, when scanning the laser frequency across a cavity resonance, I expected to observe a simple reflection dip. Instead...
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