Company Filing History:
Years Active: 2008-2018
Title: The Innovative Contributions of Stephen McCartin
Introduction
Stephen McCartin, an accomplished inventor based in Chelmsford, MA, has made significant strides in the field of optical technology. With a noteworthy portfolio of nine patents, he has focused on developing innovations that enhance the functionality and efficiency of optical systems.
Latest Patents
One of McCartin's latest patents, titled "Miniature optical elements for fiber-optic beam shaping," showcases his ingenuity in creating optical caps designed to redirect and focus light. These caps are equipped with at least one lensed surface that allows the optical radiation to pass through optical fibers, thereby converting the light into a focused or collimated beam outside the cap. This invention is particularly beneficial for various data collection modalities, including optical coherence tomography. The patent further details the lens assembly that features a micro-lens and a beam director in optical communication with the micro-lens, along with a uniquely transparent film or cover, which generates controlled backscatter while bi-directionally transmitting light.
Career Highlights
Throughout his career, Stephen McCartin has held pivotal positions at innovative companies such as Lightlab Imaging, Inc. and Lemaitre Vascular, Inc. His expertise and visionary thinking have significantly contributed to advancing optical technologies and their applications in medical and industrial fields.
Collaborations
McCartin has collaborated with other skilled professionals in the domain, including Christopher L. Petersen and Joseph M. Schmitt. Their collective efforts have fostered an environment of innovation, leading to the development of groundbreaking optical solutions.
Conclusion
With a clear focus on advancing optical systems, Stephen McCartin stands out as a pioneering inventor whose contributions are vital to the evolution of fiber-optic technology. His innovative patents not only illustrate his expertise but also hold the promise of improving data collection methods and enhancing optical functionalities across various applications.