Toru Ikegami

Title: Toru Ikegami: Innovator in Radiation Measurement Technology

Introduction

Toru Ikegami is a notable inventor based in Shimada, Japan, recognized for his contributions to radiation measurement technology. With a total of 3 patents, he has developed innovative solutions that enhance the accuracy and efficiency of radiation dose reading.

Latest Patents

Ikegami's latest patents include a radiation dose reading apparatus and a fluorescent glass dosimeter. The radiation dose reading apparatus utilizes a fluorescent glass element exposed to ionizing radiation, which, when subjected to ultraviolet light, emits fluorescence. The intensity of this fluorescence is directly proportional to the radiation dose received, allowing for precise measurements. The apparatus features a movable fluorescence diaphragm arrangement that alters the fluorescence detecting areas, along with a reading device that determines fluorescence intensity distribution.

The fluorescent glass dosimeter comprises a glass element holder with inner and outer envelopes, each equipped with a mask frame to cover the peripheral portions of the fluorescent detection surface. This dosimeter includes upper and lower cases, with the upper case functioning as a pivotable lock member that can be released by a magnet. The design ensures that the glass element holder is accurately positioned, enhancing the reliability of radiation exposure measurements.

Career Highlights

Throughout his career, Ikegami has worked with prominent organizations such as Kernforschungszentrum Karlsruhe GmbH and Toshiba Glass Co., Ltd. His experience in these companies has significantly contributed to his expertise in the field of radiation measurement.

Collaborations

Ikegami has collaborated with esteemed colleagues, including Bertram Burgkhardt and Ernst Piesch, further enriching his work and innovations in radiation technology.

Conclusion

Toru Ikegami's innovative patents and career achievements highlight his significant role in advancing radiation measurement technology. His work continues to impact the field positively, ensuring safer and more accurate radiation assessments.