Christian Ruslim

Title: Christian Ruslim: Innovator in Micropattern Retardation Elements

Introduction

Christian Ruslim is a notable inventor based in Tsukuba, Japan. He has made significant contributions to the field of optical technologies, particularly through his innovative work on micropattern retardation elements. His inventions are aimed at enhancing display technologies, making them more efficient and effective.

Latest Patents

Christian Ruslim holds a patent for a micropattern retardation element. This invention relates to a micropattern retardation element that requires no stretch processing and no extremely high positioning accuracy in cutting films. The retardation region can be controlled in width at a micron level. The production method involves forming a liquid crystalline or non-liquid crystalline polymer thin film layer with photoactive groups on a substrate. After orientation treatment in a micropattern form, a birefringence layer is formed to contact the polymer thin film layer. This design allows the birefringence molecules of the birefringence layer to be oriented according to the orientation of the photoactive groups in the thin film. The retardation element is particularly useful in three-dimensional displays and similar applications.

Career Highlights

Throughout his career, Christian Ruslim has worked with esteemed organizations such as the National Institute of Advanced Industrial Science and Technology and Nippon Kayaku Co., Ltd. His experience in these institutions has allowed him to develop and refine his innovative ideas, contributing to advancements in optical technologies.

Collaborations

Christian has collaborated with notable colleagues, including Daisaku Matsunaga and Masanori Hashimoto. Their combined expertise has fostered a productive environment for innovation and development in their respective fields.

Conclusion

Christian Ruslim's work in micropattern retardation elements showcases his commitment to advancing optical technologies. His innovative approach and collaborations have positioned him as a key figure in this area of research. His contributions continue to influence the development of more efficient display technologies.