<\/p>\n This hidden transfer is possible due to a phenomenon called “negative light.” It relies on infrared radiation<\/a>, which is the band just beyond the red end of the visible light spectrum. Infrared radiation is invisible to the naked eye, but it can be detected with thermal cameras. We experience it as heat from warm objects, and all objects emit a faint glow in the infrared.<\/p>\n Article continues below <\/p>\n You may like<\/p>\n The negative luminescence the team used could make that glow dimmer, rather than brighter. In a statement<\/a>, Michael Nielsen<\/a>, a professor of engineering at the University of New South Wales Sydney and lead author of the study, compared it to a flashlight that could “project darkness” as compared to background light, rather than simply turning off.<\/p>\n Using devices called thermoradiative diodes, the team created patterns of brighter- or darker-than-usual states that blended into typical infrared background “noise” but that can be read as data by specialized receivers.<\/p>\n \n A thermoradiative diode which is able to transmit hidden data using \u201cnegative light.\u201d (Image credit: UNSW Sydney)<\/p>\n The thermoradiative diodes were born as part of another project, in which the team proved that it was possible to generate solar power even after the sun had set<\/a>. This “night-time solar” tech captured infrared radiation that Earth had absorbed during the day and was releasing at night as it cooled. The team then used thermoradiative diodes to generate a small amount of power.<\/p>\n While the initial transfer rate of 100 kbps is quite modest, Nielsen said higher speeds are achievable. The main hurdle was the availability of some of the sophisticated electronics the team required. In principle, there’s nothing stopping this method from transferring tens of megabits per second with existing devices, with better devices and detector design pushing the speed to gigabits per second, the team said.<\/p>\n![\"A](\"https:\/\/www.newsbeep.com\/uk\/wp-content\/uploads\/2026\/03\/n4pc7gPzK56Z6Q9aiExDPJ.jpg\")
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