Company Filing History:
Years Active: 2010-2013
Title: Innovator Spotlight: Nate Kemp
Introduction
Nate Kemp is a distinguished inventor based in Austin, TX, known for his contributions to optical coherence tomography (OCT) technology. With two patents to his name, Kemp is committed to advancing the capabilities of imaging systems used in medical applications, particularly for turbid materials.
Latest Patents
His latest patents focus on the development of an OCT system utilizing spectrally resolved bandwidth. The technology aims to enhance optical coherence tomographic imaging by utilizing multiple channels of information, which include spatial, angle, spectral, and polarization domains. The innovative approach encompasses methods and apparatus that utilize optical sources, systems, or receivers capable of processing diverse channels of spectral information. Specifically, this multichannel OCT can be applied in an endoscopic probe designed to facilitate advanced imaging within patients. This includes the capacity to image vessels and various tracts within the human body by analyzing light reflected from the tissues.
Career Highlights
Kemp's career has been marked by significant advancements in imaging technology, making vital contributions while working with the University of Texas System. His background in optical systems engineering has enabled him to pioneer approaches that improve the accuracy and efficiency of medical imaging techniques.
Collaborations
Throughout his career, Kemp has collaborated with esteemed colleagues, including Marc D Feldman and Thomas E Milner. These collaborations have fostered an environment of innovation, driving pivotal advancements in the field of medical imaging technologies.
Conclusion
Nate Kemp's work exemplifies the impact of innovative technology in the medical field. His patents not only enhance our understanding of turbid materials but also improve the diagnostic capabilities available to healthcare providers. As he continues to develop and refine these technologies, Nate Kemp remains a key figure in the realm of optical coherence tomography.