Location History:
- Vancouver, WA (US) (2021 - 2023)
- Camas, WA (US) (2023)
Company Filing History:
Years Active: 2021-2023
Title: Teemu Kokki: Innovator in Optical Fiber Technology
Introduction
Teemu Kokki is a notable inventor based in Vancouver, WA (US). He has made significant contributions to the field of optical fiber technology, holding a total of 4 patents. His work focuses on enhancing the performance and efficiency of fiber lasers and optical fiber splices.
Latest Patents
Teemu Kokki's latest patents include innovative designs that address challenges in fiber laser technology. One of his patents is for a "Capillary tube to strip back-reflected light." This invention involves a fiber laser that includes multiple input fibers and an output fiber, designed to deliver a beam to a workpiece. The fiber laser features a combiner that releases a portion of back-reflected light received from the output fiber. The combiner incorporates a capillary tube that encloses part of the input fibers, along with a cladding light stripper (CLS) that facilitates the release of back-reflected light. Another significant patent is for an "Optical fiber splice encapsulated by a cladding light stripper." This invention involves spliced multi-clad optical fibers with a CLS that encapsulates the splice, allowing for conversion between optical fibers with different architectures.
Career Highlights
Teemu Kokki is currently employed at Nlight, Incorporated, where he continues to develop cutting-edge technologies in the field of optical fibers. His work has been instrumental in advancing the capabilities of fiber lasers and improving the efficiency of optical fiber splices.
Collaborations
Teemu collaborates with talented individuals in his field, including coworkers Ryan Hawke and Shaun Hampton. Their combined expertise contributes to the innovative projects at Nlight, Incorporated.
Conclusion
Teemu Kokki is a prominent inventor whose work in optical fiber technology has led to several patents that enhance the functionality of fiber lasers and optical splices. His contributions continue to shape the future of this important field.