Martin Wade Allen

Title: The Innovative Contributions of Martin Wade Allen

Introduction

Martin Wade Allen is a notable inventor based in Wilmington, NC, who has made significant contributions to the field of optical fiber technology. With a total of two patents to his name, Allen's work focuses on advancing methods and apparatuses for creating optical fiber preforms.

Latest Patents

Allen's latest patents include "Soot radial pressing for optical fiber overcladding" and "Optical fiber and a method for fabricating a low polarization-mode dispersion and low attenuation optical fiber." The first patent describes a method and apparatus for making an optical fiber preform, which involves an outer wall and an inner wall surrounding an inner cavity. A core rod is placed in the cavity, and particulate glass material is deposited around it. The core rod has a significant amount of final cladding soot already applied, and radially inward pressure is used to press the glass material against the core rod. The second patent outlines a method for fabricating an optical waveguide fiber, which includes steps to close a longitudinally extending centerline hole in a cylindrical glass optical fiber preform.

Career Highlights

Allen is currently employed at Corning Incorporated, a company renowned for its innovations in glass and ceramics. His work at Corning has allowed him to contribute to cutting-edge developments in optical fiber technology, enhancing the performance and efficiency of optical communication systems.

Collaborations

Throughout his career, Allen has collaborated with esteemed colleagues such as Steven Bruce Dawes and Robert Brett Desorcie. These collaborations have fostered an environment of innovation and creativity, leading to advancements in their respective fields.

Conclusion

Martin Wade Allen's contributions to optical fiber technology through his patents and work at Corning Incorporated highlight his role as a significant inventor in the industry. His innovative methods continue to shape the future of optical communication.