Abstract

Two-photon absorption coefficients /32 of ten direct gap semiconductors with band-gap energy Eg varying between 1 .4 and 3.7 eV were measured using 1.06 µm and 0.53 um picosecond pulses. $2 was found to scale as E43, as predicted by theory for the samples measured. Extension of the empirical relationship between $2 and Eg to InSb with Eg = 0.2 eV also provides agree-ment between previously measured values and the predicted 02. In addition, the absolute values of $2 are in excellent agreement (the average difference being <26%) with recent theory, which includes the effects of nonparabolic bands. The nonlinear refraction induced in these materials was monitored and found to agree well with the assumption that the self-refraction originates from the two-photon-generated free carriers. The observed self-defocusing yields an effective nonlinear index as much as two orders of magnitude larger than CS2 for comparable irradiances. This self-defocusing, in conjunction with two-photon absorption, was used to construct a simple, effective optical limiter that has high transmission at low input irradiance and low transmission at high input irradiance. The device is the optical analog of a Zener diode.

Keywords

Absorption (acoustics)OpticsRefractive indexPhotonSemiconductorPicosecondRefractionPhysicsTwo-photon absorptionIrradianceDiodeMaterials scienceBand gapNonlinear opticsOptoelectronicsLaser

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Year
1985
Type
article
Volume
24
Issue
4
Citations
376
Access
Closed

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Eric W. Van Stryland, Herman Vanherzeele, M. A. Woodall et al. (1985). Two Photon Absorption, Nonlinear Refraction, And Optical Limiting In Semiconductors. Optical Engineering , 24 (4) . https://doi.org/10.1117/12.7973538

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DOI
10.1117/12.7973538