Company Filing History:
1 out of 832,880 Years Active: 2003
Title: Evgueni Borisovich Danilov: Innovator in Optical Fiber Technology
Introduction
Evgueni Borisovich Danilov is a notable inventor based in St. Petersburg, Russia. He has made significant contributions to the field of optical fiber technology, particularly through his innovative methods of producing optical fiber preforms.
Latest Patents
Danilov holds a patent for a method of making an optical fiber preform via multiple plasma depositing and sintering steps. This method begins with a first-generation target typically comprising pure silica. A plasma torch deposits an annular region of doped silica to form an intermediate structure. The intermediate structure is then drawn down to a second-generation target, where another annular region of doped silica is deposited. This process is repeated multiple times until an Nth generation target is formed. The deposition process may also include repeated cycles of depositing multiple layers of silica at a high traversal rate without sintering, followed by periodic sintering. Additionally, stabilizer bars extending from the plasma coils improve the distribution of the deposition material. Another embodiment of the invention involves injecting the source gas into a specific region of the plasma to control soot deposition.
Career Highlights
Danilov's career is marked by his dedication to advancing optical fiber technology. His innovative methods have the potential to enhance the efficiency and quality of optical fibers, which are crucial for modern telecommunications and data transmission.
Collaborations
Danilov has worked alongside notable colleagues, including Mikhail Ivanovich Gouskov and Mohammad Afzal Aslami. Their collaborative efforts contribute to the ongoing advancements in the field of optical fiber technology.
Conclusion
Evgueni Borisovich Danilov is a prominent figure in the realm of optical fiber innovation. His patented methods demonstrate a commitment to enhancing the production processes of optical fibers, which are essential for modern communication technologies.