E Frederick Schubert

Title: E Frederick Schubert: A Pioneer in Light Emitting Devices

Introduction: E Frederick Schubert, based in Canton, Massachusetts, is a renowned inventor recognized for his contributions to the field of light emitting devices. With a unique approach to dielectric structures, Schubert's work has paved the way for advancements in the understanding and implementation of electromagnetic radiation.

Latest Patents: Schubert holds a significant patent titled "Light emitting device utilizing a periodic dielectric structure." This innovative patent describes a light emitting device that comprises a substrate and a dielectric structure with a two-dimensionally periodic variation of dielectric constant. This unique configuration results in a spectrum of electromagnetic modes that incorporate both guided and radiation modes. The introduction of a band gap between these modes allows for efficient radiation extraction, enhancing the potential applications of the device. Moreover, the structure can be specifically designed to incorporate a radiation reflector situated between the dielectric structure and the substrate, further improving its functionality.

Career Highlights: Throughout his career, E Frederick Schubert has been associated with prestigious institutions such as the Massachusetts Institute of Technology (MIT) and Boston University. His tenure at these esteemed universities has provided him with a robust platform for research, innovation, and collaboration in the dynamic field of optical engineering.

Collaborations: Schubert has worked alongside prominent researchers, including John Dimitris Joannopoulos and Shanhui Fan. Their collaborative efforts have contributed significantly to advancing the understanding of photonic devices and the creation of innovative technologies.

Conclusion: E Frederick Schubert's work exemplifies the spirit of innovation in the field of light emitting devices. His patent highlights the importance of dielectric structures in enhancing electromagnetic radiation and demonstrates his commitment to pushing the boundaries of technology. Through his collaborations and research endeavors, Schubert continues to inspire advancements that shape the future of optical engineering.