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Insulator-to-metal transition in sulfur-doped silicon

We observe an insulator-to-metal (I-M) transition in crystalline silicon doped with sulfur to non- equilibrium concentrations using ion implantation followed by pulsed laser melting and rapid resolidification. This I-M transition is due to a dopant known to produce only deep levels at equilibrium concentrations. Temperature-dependent conductivity and Hall effect measurements for temperatures T > 1.7 K both indicate that a transition from insulating to metallic conduction occurs at a sulfur concentration between 1.8 and 4.3 x 10^20 cm-3. Conduction in insulating samples is consistent with variable range hopping with a Coulomb gap. The capacity for deep states to effect metallic conduction by delocalization is the only known route to bulk intermediate band photovoltaics in silicon.

preprint2011arXivOpen access
Mark T. WinklerDaniel RechtMeng-Ju SherAurore J. SaidEric MazurMichael J. Aziz
cond-mat.mtrl-sci
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Mark T. WinklerDaniel RechtMeng-Ju SherAurore J. SaidEric MazurMichael J. Aziz

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