Ashwin Gopinath

Title: Innovations of Ashwin Gopinath

Introduction

Ashwin Gopinath is an accomplished inventor based in Boston, MA. He has made significant contributions to the field of electromagnetic materials and their applications in integrated optical circuits. His innovative work has led to the development of a unique patent that enhances localized electromagnetic fields.

Latest Patents

Gopinath holds a patent titled "Deterministic aperiodic patterned dielectric and plasmonic materials for localized electromagnetic field enhancement." This patent describes a method for extending deterministic, aperiodic structures into higher spatial dimensions. These structures exhibit strong aperiodic effects and are compatible with planar technology used in integrated optical circuits. The disclosed devices respond to incident electromagnetic energy, creating a distribution of energy that enhances localized electromagnetic fields. The device includes a dielectric or plasmonic material with a region of interaction that features a deterministic, aperiodic patterning. This patterning consists of an array of individual elements with distinct refractive indices, allowing for variations in refractive index over distances comparable to the wavelength of the incident electromagnetic energy. Specific examples include the use of Rudin-Shapiro, Thue-Morse, and Fibonacci sequences.

Career Highlights

Throughout his career, Ashwin Gopinath has worked at prestigious institutions such as Boston University and Stanford University. His research has focused on the intersection of materials science and optical engineering, leading to advancements in the design of devices that manipulate electromagnetic fields.

Collaborations

Gopinath has collaborated with notable colleagues, including Luca Dal Negro and Ning-Ning Feng. These partnerships have fostered a rich environment for innovation and research in the field of electromagnetic materials.

Conclusion

Ashwin Gopinath's contributions to the field of electromagnetic materials and integrated optical circuits are noteworthy. His patent reflects a significant advancement in the understanding and application of aperiodic structures. Gopinath's work continues to influence the development of new technologies in this area.