[4] Shaw, G. A., et al. (2023). NLOS UV communication for ad-hoc networks in obstructed environments. Journal of Lightwave Technology , 41(7), 1988-1999. j.sinclair@photonics.ipa.edu

[2] Chen, G., et al. (2024). 10 Gbps solar-blind UV communication using AlGaN nanowire LEDs. Nature Photonics , 18, 234-241.

A silicon carbide (SiC) avalanche photodiode with a rejection ratio of ( 10^{12} ) for visible/IR light. Dark count rates are < 10 Hz.

Traditional mercury lamps are inefficient. We utilize pulsed AlGaN nanowire LEDs (emission at 265 nm) with an external quantum efficiency of 15% at room temperature—a 500% improvement over 2020 benchmarks.

The author declares no competing interests. End of generated paper.

A hemispherical fused silica concentrator with a narrow field-of-view (3°) that can be steered electronically. 4. Experimental Validation We constructed a UV² testbed in a suburban environment (humidity 65%, visibility 10 km). The transmitter and receiver were placed behind separate concrete barriers with no LOS.

OOK (On-Off Keying) with pulse-position modulation at 500 MHz. Range: 1.2 km. Data Rate: 9.8 Gbps (measured, with BER < ( 10^{-9} )).

This work was supported by the DARPA UV² program (Contract No. HR0011-25-2-004).

!full! - Ultraviolet Unblocked

[4] Shaw, G. A., et al. (2023). NLOS UV communication for ad-hoc networks in obstructed environments. Journal of Lightwave Technology , 41(7), 1988-1999. j.sinclair@photonics.ipa.edu

[2] Chen, G., et al. (2024). 10 Gbps solar-blind UV communication using AlGaN nanowire LEDs. Nature Photonics , 18, 234-241.

A silicon carbide (SiC) avalanche photodiode with a rejection ratio of ( 10^{12} ) for visible/IR light. Dark count rates are < 10 Hz. ultraviolet unblocked

Traditional mercury lamps are inefficient. We utilize pulsed AlGaN nanowire LEDs (emission at 265 nm) with an external quantum efficiency of 15% at room temperature—a 500% improvement over 2020 benchmarks.

The author declares no competing interests. End of generated paper. [4] Shaw, G

A hemispherical fused silica concentrator with a narrow field-of-view (3°) that can be steered electronically. 4. Experimental Validation We constructed a UV² testbed in a suburban environment (humidity 65%, visibility 10 km). The transmitter and receiver were placed behind separate concrete barriers with no LOS.

OOK (On-Off Keying) with pulse-position modulation at 500 MHz. Range: 1.2 km. Data Rate: 9.8 Gbps (measured, with BER < ( 10^{-9} )). NLOS UV communication for ad-hoc networks in obstructed

This work was supported by the DARPA UV² program (Contract No. HR0011-25-2-004).

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