Company Filing History:
Years Active: 1993-1995
Title: Allan W. Olsen: A Pioneer in Nonlinear Optical Composites
Introduction
Allan W. Olsen, based in Arlington, VA, is a noteworthy inventor recognized for his contributions to the field of nonlinear optics. With two patents under his belt, his innovative work has significantly advanced the understanding and application of optical materials.
Latest Patents
Olsen's latest patents revolve around "Nonlinear Optical Composites of Metal Cluster Laden Polymers." His inventions describe a method for preparing nonlinear optical composites characterized by a large third-order optical response. This involves the vapor deposition of a metal onto a cold support while concurrently cocondensing a vapor of an organic material. If the organic material is a monomer, it polymerizes when it contacts the metal or when the cold surface is warmed. The process results in a processable composite after removing the unpolymerized monomer. When the organic material acts as a diluent, it solidifies on the cold surface to create a dispersion of metal clusters in a liquid diluent. A polymer solution is then blended with this dispersion, and the final composite is formed after removing both the diluent and solvent.
Career Highlights
Allan W. Olsen has made valuable contributions while working with the United States of America, as represented by the Secretary of the Navy. His role in the development of innovative materials has positioned him as a key player in his field, allowing him to leverage his expertise to create impactful inventions.
Collaborations
Throughout his career, Olsen has collaborated with notable professionals in the field, including Zakya H. Kafafi. These collaborations have further enriched his research and have led to advancements in the technologies associated with nonlinear optical composites.
Conclusion
Allan W. Olsen stands out as a significant inventor in the realm of optical materials. His innovative approaches to creating nonlinear optical composites exemplify the potential of new materials and their applications in various technologies. With ongoing collaborations and a focus on advancement, Olsen’s future contributions remain highly anticipated within the scientific community.