Company Filing History:
Years Active: 1976-1985
Title: Innovations by Inventor Arthur D. Pearson
Introduction
Arthur D. Pearson, a prominent inventor based in Bernardsville, NJ, is known for his significant contributions to the field of optical fiber technology. With a total of six patents, Pearson has developed innovative methods that enhance the fabrication and performance of optical fibers, making them essential for modern communication technologies.
Latest Patents
Among his most notable innovations are the following patents:
1. **Optical fiber fabrication process** - This patent discloses a method for forming optical fibers with minimal contamination from ambient air. The inventive method involves introducing a gas stream into a rotating structure using a rotating seal. This design allows for counterflowing gases to pass through the clearance region between the rotating and stationary members, effectively preventing ambient air from seeping into the gas stream.
2. **Low dispersion single mode fiber** - This patent reveals a low-loss single mode fiber characterized by low total dispersion within the wavelength range of 1.25-1.385 µm. It boasts low cabling loss thanks to a relatively high Δ, which is achieved without incurring high material dispersion, utilizing at least 20 percent of the Δ by down-doping the fiber cladding.
Career Highlights
Arthur D. Pearson's career has included tenures at esteemed institutions such as Bell Telephone Laboratories and AT&T Bell Laboratories, where he harnessed his expertise to develop groundbreaking technologies. His work in these laboratories has paved the way for advancements in telecommunications and fiber optics.
Collaborations
Throughout his professional journey, Pearson has collaborated with notable individuals in the field, including Paul D. Lazay and Paul Joseph Lemaire. These partnerships have enriched his research and contributed to the successful development of his patents.
Conclusion
Arthur D. Pearson has made remarkable strides in the domain of optical fibers through his innovative patents. His work remains influential, impacting the telecommunications industry and enhancing the capabilities of modern optical communication systems.