SUPERLASER is an EU-funded research project focused on developing next-generation lasers using halide perovskite materials. SUPERLASER aims to change the field of lasing by developing green low-cost, solution-processable efficient and ultranarrow linewidth superradiant halide perovskite lasers. This goal will be accomplished by predicting and developing targets to transforming coherent light generation through scientific designs and strategic developments at the material and device level towards synergistic outcomes across scientific, technological and ecological boundaries. The project prioritizes research innovation and sustainability, focusing on the prediction of halide perovskites with strong inherent spu and the successful development of continuous superlattices based on the predicted materials. These superradiant emitters are expected to act as topological lasers without any additional cavity requirements due to photonic crystal properties endowed by their non-trivial topology. They will be applied as gain media combined with energetically matched charge transport materials to fabricate the first electrically pumped perovskite lasers working at room temperature.

With applications ranging from quantum computing to gravitational wave detection, SUPERLASER is driving advancements in high-performance, sustainable lasing solutions. Coordinated by the National Centre for Scientific Research "Demokritos" (NCSR "D") in Greece, the project brings together nine partners across Europe to push the boundaries of scientific and technological innovation.