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It has been understood for over twenty years that multi-photon absorption can lead to photon-number squeezed states of light, where the photon statistics are sub-Poissonian [1, 2]. We present the first observation of this effect using an AlGaAs waveguide within which high intensities can be maintained over a long interaction length (~2 mm). In this system, we investigate two-photon absorption by using ultrashort laser pulses with photon energies above the half-bandgap, and three-photon absorption by using photon energies below the half-bandgap [3]. This enables us to compare the squeezing from these two mechanisms and we find that our results relate well to theory that predicts stronger squeezing by three-photon absorption than by two-photon absorption for a given nonlinear absorption. The figure shows squeezing data from the AlGaAs waveguide for photon energies a) above half-bandgap (two-photon) and b) below half-bandgap (three-photon).
© 1998 IEEE
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