Resumen

SHCHERBAKOV, A.S.  y  AGUIRRE LOPEZ, A.. Experimental modeling of algorithms and components for all-optical high-bit-rate digital processors-multipliers using light bullets. Rev. mex. fis. [online]. 2007, vol.53, n.2, pp.96-104. ISSN 0035-001X.

We present both the estimations of main parameters and the experimental data related to the modeling of algorithms and components for all-optical digital processors-multipliers, exploiting the spatio-temporal optical solitons or light bullets as bit carriers. The modern approach, based on the concept of arranging light beams in space and time using the regime of spatio-temporal solitons is examined from the viewpoint of arresting the collapse of light bullets in a graded-index self-defocusing medium with normal group-velocity dispersion. To perform all-optical computations, the beams of picosecond optical pulses, whose parameters were in one to one coincidence with previously estimated light bullets, have been shaped and employed. Two all-optical algorithms for binary data multiplication in a mixed binary format as well as the corresponding components are designed and experimentally tested with an array of non-collinear second-harmonic generation based optical AND-gates arranged in a square-law optically nonlinear medium.

Palabras llave : Spatio-temporal soliton; light bullet; all-optical digital multiplication; non-collinear second harmonic generation.

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