This study demonstrates a nano-buried-heterostructure photonic crystal laser with an extremely low threshold power at telecom wavelengths. By reducing the doping-induced losses and efficiently miniaturizing the active region of the laser cavity, this breakthrough achievement has been made. The laser can be directly modulated at a high frequency with low energy consumption, making it suitable for on-chip links.
We demonstrate a nano-buried-heterostructure photonic crystal laser exhibiting an ultralow threshold of 730 nA at telecom wavelengths. This breakthrough was achieved by reducing the doping-induced losses of the laser cavity, enabling the efficient miniaturization of the active region. The laser can be directly modulated at 3 GHz at an energy cost of 1 fJ/bit, and a comparison to longer lasers is given. To the best of our knowledge, this is the lowest threshold reported for any laser operating at room temperature, facilitating on-chip links with ultralow energy consumption. (c) 2023 Optica Publishing Group under the terms of the Optica Open Access Publishing Agreement
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