Direct evidence of impact excitation and spatial profiling of excited Er in light emitting Si diodes

We provide direct evidence that Er ions incorporated in the depletion layer of a p+–n+ Si junction are efficiently pumped through an impact excitation process with hot carriers. The carriers were accelerated by the electric field present in the depletion layer after being produced by either Zener breakdown of the junction at ∼5 V or by irradiating the diode with an argon laser. Measurements of the electroluminescence yield at 1.54 μm as a function of the reverse bias voltage (and for a constant current through the device) reveal that excitation of Er only occurs at voltages above 1 V, demonstrating that impact is the pumping mechanism. Moreover, we have found that Er ions are only excited within ∼15 nm from the edges of the depletion layer leaving a dark, ∼50 nm thick, region in the central part of the depletion region. Monte Carlo calculations confirmed that only close to the depletion layer edges the energy gained by the carriers in the electric field is high enough to impact excite Er.

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