Company Filing History:
Years Active: 2023
Title: Innovations of Daniel Nolan in Structured Light
Introduction
Daniel Nolan is an accomplished inventor based in Painted Post, NY (US). He has made significant contributions to the field of optics, particularly in the manipulation of light through structured beams. His innovative approach has led to the development of a unique patent that explores the interactions of light with complex structures.
Latest Patents
Daniel Nolan holds a patent for a "Method for altering light interactions with complex structured light." This patent focuses on the use of structured beams, including Bessel beams, Laguerre Gaussian beams, and focused Gaussian beams, as natural waveguides. Notably, it discusses how the group velocity of these beams can be subluminal, meaning it can be slower than the speed of light when compared to a Gaussian beam in free space. The patent outlines a free space dispersion relation for a Bessel beam, detailing the relationship between its wavenumber and angular frequency, from which the subliminal group velocity is derived. Under reasonable conditions, a Bessel light beam can exhibit parameters that allow for slowing near a critical frequency. The application of Bessel beams as a natural optical buffer in free space is also presented. Furthermore, the patent highlights how structured light carrying orbital angular momentum (OAM) can alter optical transitions and selection rules in materials, with nano antennas enhancing the interactions of structured light.
Career Highlights
Daniel Nolan is affiliated with the City University of New York, where he continues to advance his research in optics and structured light. His work has garnered attention for its innovative approach and practical applications in various fields.
Collaborations
One of his notable collaborators is Robert R Alfano, with whom he has worked on various projects related to structured light and its applications.
Conclusion
Daniel Nolan's contributions to the field of optics through his patent on structured light interactions demonstrate his innovative spirit and commitment to advancing technology. His work not only enhances our understanding of light but also opens new avenues for practical applications in the future.