Company Filing History:
Years Active: 2012
Title: Innovations of Santosh Tripathi in Nonlinear Optics
Introduction
Santosh Tripathi is a notable inventor based in Kathmandu, Nepal. He has made significant contributions to the field of nonlinear optics, particularly through his innovative research and patents. His work focuses on the measurement of nonlinear susceptibility in nanoparticles, which has important implications for various scientific applications.
Latest Patents
Santosh Tripathi holds a patent titled "Second-order nonlinear susceptibility of a nanoparticle using coherent confocal microscopy." This patent describes a coherent confocal microscope and methods for measuring elements of the nonlinear susceptibility of a nanoparticle. More specifically, it addresses all elements of the second-order susceptibility tensor of a single nanoparticle under permutation and Kleinman symmetry. By utilizing a high numerical aperture lens, two-dimensional scanning, and a vector beam shaper, the second-order nonlinear susceptibility is derived from a single confocal image. The patent also presents a forward model for the problem and a computationally efficient data processing method that robustly solves the inverse problem. He has 1 patent to his name.
Career Highlights
Santosh Tripathi is affiliated with the University of Illinois, where he continues to advance his research in nonlinear optics. His academic background and expertise have positioned him as a valuable contributor to the scientific community. His work not only enhances the understanding of nonlinear optical phenomena but also paves the way for future innovations in the field.
Collaborations
Throughout his career, Santosh has collaborated with esteemed colleagues such as Paul Scott Carney and Kimani C Toussaint. These collaborations have enriched his research and expanded the impact of his work in the scientific community.
Conclusion
In summary, Santosh Tripathi is a pioneering inventor whose work in nonlinear optics has led to significant advancements in the measurement of nanoparticle properties. His contributions are vital for the ongoing development of innovative technologies in this field.