Engineering Intelligent Lighting
High-quality lighting plays a vital role in improving everyday life. Recent advances in lamp manufacturing now make it possible to create intelligent lighting systems that not only illuminate a space but potentially provide heat and even boil water—while significantly reducing electromagnetic radiation (EMR) and lowering energy costs. Our research goals with plasma-based lamps include delivering a high-resolution color spectrum and being engineered to support health, nurture greenhouse growth, efficiently heat your home, and boil water. We are currently designing a proof-of-concept project path and plan to conduct trials with qualified, independent third parties.
Independent Scientific Research
Our research company is independent, self-funded, and currently powered by dedicated volunteers. In today’s landscape, this is increasingly rare, as many research organizations rely on funding from universities, corporations, or venture capital firms. Those funding sources often prioritize narrow outcomes that may not align with the founders’ interests and visions. By contrast, we pursue independent scientific research, validated by third parties, to develop technologies that genuinely benefit society as a whole while remaining financially sustainable.Â
Our Expertise
With over 25 years of hands-on experience in technology research and development, I’ve developed a deep foundation for exploring innovative ideas and concepts. This background allows me to conduct in‑depth research and carefully document the work of scientific professionals whose experiments support similar conclusions. Our focus is on artificial intelligence–managed plasma light technologies, which are proving especially promising, offering a broader spectrum, higher efficiency, and lower electromagnetic radiation. My father devoted his career to advancing lighting technologies, and I’m proud to see his vision finally coming to fruition.
My father, Nikolaos Barakitis, spent twenty-five years as a research and development engineer at GTE Sylvania Lighting in Salem, Massachusetts. Over the course of his career, he was awarded twenty-six U.S. patents. In 1980, working out of his home laboratory, he designed a prototype variable light‑spectrum lamp that was efficient, and the power supply emitted lower levels of electromagnetic radiation. Today, our focus is on making this technology commercially viable using modern manufacturing methods.



