Abstract

The unusual behaviour of the optical polarization degree of 29Si nuclei as a function of the illumination time has been found in silicon single crystals heavily doped with gadolinium. The effect of an external magnetic field on the process of optical nuclear polarization has been studied. It has been shown that the presence of second phase precipitations in heavily doped silicon leads to the complex unexponential establishment of the optical nuclear polarization degree with illumination time.

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