Fig. 6: The optical output power (POUT) versus electrical input power (PIN) characteristic of an electrically biased PC sample. The data is plotted in a linear-scale (blue dots) and also a logarithmic scale (red dots). | npj Nanophotonics

Fig. 6: The optical output power (POUT) versus electrical input power (PIN) characteristic of an electrically biased PC sample. The data is plotted in a linear-scale (blue dots) and also a logarithmic scale (red dots).

From: Observation of nonlinear input-output power characteristic of light emission from an electrically-biased metallic photonic crystal

Fig. 6: The optical output power (POUT) versus electrical input power (PIN) characteristic of an electrically biased PC sample. The data is plotted in a linear-scale (blue dots) and also a logarithmic scale (red dots).

While PIN is increased by ~13 times (from 0.5 W to 6.6 W), POUT is increased by ~10 million times (i.e. from ~1 nW–10 mW).

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