Company Filing History:
Years Active: 2017
Title: Yuki Otoshima: Innovator in Discharge Lamp Technology
Introduction
Yuki Otoshima is a notable inventor based in Himeji, Japan. She has made significant contributions to the field of lighting technology, particularly through her innovative work on discharge lamps. Her inventions focus on improving the efficiency and stability of lighting systems.
Latest Patents
Yuki Otoshima holds a patent for a discharge lamp that features an emitter other than thorium, which is added to a cathode in a luminous tube. This design prevents early depletion of the emitter due to excessive vaporization from the cathode. It achieves stable lighting even during the start-up phase. The main body part of the cathode is constructed from a high-melting-point metal material that does not contain thorium, while the front end part is made from a similar material that includes an emitter other than thorium. Additionally, a sintered compact containing a higher concentration of the emitter is embedded within a sealed space in the main body and/or front end part, ensuring effective performance.
Career Highlights
Yuki Otoshima has been recognized for her innovative approach to lighting technology. Her work has not only advanced the field but has also contributed to the development of more sustainable lighting solutions. She is currently associated with Ushio Denki Kabushiki Kaisha, where she continues to push the boundaries of lighting technology.
Collaborations
Yuki collaborates with talented individuals in her field, including Yukiharu Tagawa and Tomoyoshi Arimoto. These partnerships enhance her research and development efforts, leading to groundbreaking advancements in discharge lamp technology.
Conclusion
Yuki Otoshima's contributions to the field of discharge lamps exemplify her innovative spirit and dedication to improving lighting technology. Her patent reflects a significant advancement that addresses common challenges in the industry. Through her work, she continues to inspire future innovations in the field.