Company Filing History:
Years Active: 2008-2009
Title: Henry G. Giesber III: Innovator in Non-Linear Optical Applications
Introduction
Henry G. Giesber III, based in Charlotte, NC, is an accomplished inventor with a focus on innovative materials for laser and non-linear optical applications. With three patents to his name, his work significantly contributes to advancements in the field of optics, particularly through the development of complex crystal structures.
Latest Patents
Among his latest patents, Giesber has developed methods for the hydrothermal growth of unique crystals that hold great promise for various applications. His first patent describes the hydrothermal growth of hexagonal beryllium borate crystals. These crystals are acentric and feature a formula of SrBeBO, which is conducive for laser and non-optical applications, highlighting their importance in optical devices.
His second patent details the formation of rhombohedral potassium fluoroberyllium borate crystals through hydrothermal methods as well. These crystals are also acentric and are designed for use in laser and non-linear optical applications, underscoring Giesber’s commitment to pushing the boundaries of crystal technology.
Career Highlights
Throughout his career, Giesber has worked with reputable institutions, including Clemson University and Advanced Photonics Crystals. His tenure at these organizations has allowed him to cultivate a rich understanding of photonics and materials science, leading to his patent developments and contributions in this advanced domain.
Collaborations
Giesber has collaborated with notable colleagues, including Joseph William Kolis and Colin D. McMillen. These partnerships have fostered a multidisciplinary approach to research, blending different areas of expertise that enhance innovation in material sciences.
Conclusion
Henry G. Giesber III demonstrates how innovation and collaboration can lead to significant advancements in laser and non-linear optical technologies. His patents reflect a deep understanding of crystalline materials and their applications, marking him as a prominent figure in the field of optoelectronics.