Company Filing History:
Years Active: 1996-2004
Title: The Innovative Contributions of Kimberly L. Crawford
Introduction
Kimberly L. Crawford is an accomplished inventor based in Cupertino, California, known for her significant contributions in the field of photometric devices. With a total of five patents to her name, Crawford has made remarkable advancements in measuring optical parameters, particularly in the ultraviolet light range. Her work is characterized by both innovation and practical application in scientific research.
Latest Patents
Among Kimberly's latest inventions is a photometric device designed for measuring optical parameters. This innovative device operates within the ultraviolet light spectrum, utilizing a monochromator that effectively splits the test light into multiple channels through a rotor assembly equipped with a mirror. This mechanism enhances the measurement accuracy and flexibility of the device, showcasing Crawford's ability to blend complex scientific concepts with practical engineering solutions.
Career Highlights
Crawford is affiliated with Molecular Devices Corporation, where she applies her knowledge and skills to furthering the development of advanced measurement technology. Her role at the company highlights her commitment to pushing the boundaries of innovation in photometric devices, helping to establish Molecular Devices Corporation as a leader in the field.
Collaborations
Throughout her career, Kimberly has collaborated with esteemed colleagues, including Dean G. Hafeman and Mark Wechsler. These partnerships have been instrumental in fostering a collaborative environment that nurtures creativity and innovation, allowing for the exchange of ideas and expertise in developing groundbreaking technologies.
Conclusion
In summary, Kimberly L. Crawford's contributions as an inventor reflect her dedication to innovation and excellence in the field of optical measurement. With her impressive portfolio of patents and collaboration with talented professionals, Crawford continues to influence the landscape of photometric devices, driving progress and enhancing research methodologies in various scientific domains.