Cross-phase modulation (XPM) is a nonlinear optical effect where one wavelength of light can affect the phase of another wavelength of light through the optical Kerr effect. When the optical power from a wavelength impacts the refractive index, the impact of the new refractive index on another wavelength is known as XPM.

Applications of XPM

Cross-phase modulation can be used as a technique for adding information to a light stream by modifying the phase of a coherent optical beam with another beam through interactions in an appropriate nonlinear medium. This technique is applied to fiber-optic communications. If both beams have the same wavelength, then this type of cross-phase modulation is degenerate.^[1]

XPM is among the most commonly used techniques for quantum nondemolition measurements.

Other advantageous applications of XPM include:

• Nonlinear optical Pulse Compression of ultrashort pulses
• Passive mode-locking
• Ultrafast optical switching
• Demultiplexing of OTDM channels
• Wavelength conversion of WDM channels
• Measurement of nonlinear optical properties of the media (non-linear index n₂ (Kerr nonlinearity) and nonlinear response relaxation time)^[1]

Disadvantages of XPM

See also

• Self-phase modulation — SPM
• Four wave mixing — FWM
• Stimulated Raman scattering — SRS
• Cross-polarized wave generation — XPW

References

External links

• Cross-phase modulation (RP Photonics, Encyclopedia of Laser Physics and Technology)

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