X-ray science has been a cornerstone of innovation since its discovery over 125 years ago, contributing to medical advancements, scientific research, and technology development. However, recent breakthroughs in quantum electrodynamics are opening a new era of possibilities for X-ray technology. This project aims to revolutionize X-ray science by developing new nanoscale photonics technologies. The Principal Investigator (PI)'s work holds the potential to bring about major leaps in the life sciences, energy sectors, and various other fields. These advancements could lead to new tools in quantum information science, ultrafast imaging, and spectroscopies that were once considered science fiction. This project is not only about advancing technological capabilities but also about promoting the overall progress of science in alignment with NSF’s mission. By integrating various fields such as quantum physics, laser technology, and accelerator science, the PI is setting the stage for novel applications that impact everything from medical imaging to quantum computing. Furthermore, their commitment to develop educational initiatives will foster a new pipeline of future scientists and engineers. In summary, this research endeavors to redefine how X-ray technology is utilized in various fields, while simultaneously addressing important educational and societal challenges. Nurturing talent from all segments of society and promoting interdisciplinary collaboration will ensure that the b