Company Filing History:
2 out of 598 
1 out of 58 
1 out of 65 
Years Active: 2001-2003
Title: Gail Ann Bogert: Innovator in Optical Technologies
Introduction
Gail Ann Bogert is a prominent inventor based in Bethlehem, PA (US). She has made significant contributions to the field of optical technologies, holding a total of 4 patents. Her work focuses on methods and apparatuses that enhance the monitoring and detection of optical signals.
Latest Patents
One of her latest patents is titled "Optical waveguide based power and wavelength monitor." This invention provides a method to determine the wavelength of an input optical signal by dividing it into multiple individual optical signals. These signals interfere with each other, resulting in output optical signals whose powers vary with the wavelength of the input signal. This technology can be easily integrated into telecommunications systems.
Another notable patent is the "Waveguide based component optical signal power and wavelength detector." This invention features a planar waveguide monitor designed to determine the wavelength and power of component optical signals within a multiplexed optical signal. It utilizes an optical waveguide router and an array of optical detectors to produce electrical output signals that correspond to the power of each detected output optical signal. A programmable computer then analyzes these signals to ascertain the power and wavelength of each component signal.
Career Highlights
Gail has worked with several notable companies throughout her career, including Agere Systems and Guardian Corporation. Her experience in these organizations has allowed her to develop and refine her innovative ideas in optical technologies.
Collaborations
One of her notable collaborators is Ernest Eisenhardt Bergmann. Their partnership has contributed to the advancement of optical signal monitoring technologies.
Conclusion
Gail Ann Bogert's contributions to optical technologies through her patents and collaborations highlight her role as a significant innovator in the field. Her work continues to influence advancements in telecommunications and optical signal processing.