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Phase mismatch by angular detuning of a nonlinear crystal allows continuous variation of the intensity of second-harmonic light generated in the crystal, while maintaining a controlled phase relationship between the first and second harmonics. Interference of this second- harmonic light with second-harmonic light generated in another crystal further along the beam path has been measured, and can be understood by taking beam walk-off into account. When the second crystal is replaced by an optical fiber prepared for second-harmonic generation, the observed interference allows one to determine the phase of the (chi)(2) grating in the optical fiber. We find the phase to be 88 +/- 4 degree(s). This phase differs by 180 degree(s) from recently reported results.
Karl W. Koch andGerald T. Moore
"Two-color interferometry using a detuned frequency-doubling crystal", Proc. SPIE 1516, International Workshop on Photoinduced Self-Organization Effects in Optical Fiber, (30 December 1991); https://doi.org/10.1117/12.51147
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Karl W. Koch, Gerald T. Moore, "Two-color interferometry using a detuned frequency-doubling crystal," Proc. SPIE 1516, International Workshop on Photoinduced Self-Organization Effects in Optical Fiber, (30 December 1991); https://doi.org/10.1117/12.51147