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Gigabit-per-second white light-based visible light communication using near-ultraviolet laser diode and red-, green-, and blue-emitting phosphors. | LitMetric

AI Article Synopsis

  • This study presents a novel data communication method using white light generated by a near-ultraviolet (NUV) laser diode and RGB phosphors, achieving data transmission over 1 Gbps.
  • The NUV laser diode, which operates at 410 nm and has a modulation bandwidth of 1 GHz, was tested for its effectiveness in transmitting high-quality white light, evidenced by a color rendering index (CRI) of 79.
  • The system is anticipated to minimize interference from sunlight due to the lower intensity of the solar spectrum at the NUV wavelength compared to traditional blue laser diode systems.

Article Abstract

Data communication based on white light generated using a near-ultraviolet (NUV) laser diode (LD) pumping red-, green-, and blue-emitting (RGB) phosphors was demonstrated for the first time. A III-nitride laser diode (LD) on a semipolar (2021¯)  substrate emitting at 410 nm was used for the transmitter. The measured modulation bandwidth of the LD was 1 GHz, which was limited by the avalanche photodetector. The emission from the NUV LD and the RGB phosphor combination measured a color rendering index (CRI) of 79 and correlated color temperature (CCT) of 4050 K, indicating promise of this approach for creating high quality white lighting. Using this configuration, data was successfully transmitted at a rate of more than 1 Gbps. This NUV laser-based system is expected to have lower background noise from sunlight at the LD emission wavelength than a system that uses a blue LD due to the rapid fall off in intensity of the solar spectrum in the NUV spectral region.

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Source
http://dx.doi.org/10.1364/OE.25.017480DOI Listing

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