Company Filing History:
Years Active: 2016-2019
Title: Kohtaro Hosoya: Innovator in Charged Particle Beam Technology
Introduction
Kohtaro Hosoya is a prominent inventor based in Tokyo, Japan. He has made significant contributions to the field of charged particle beam technology, holding two patents that enhance the functionality and usability of charged particle beam devices. His work is particularly focused on improving the ease of operation for less-experienced users while ensuring high-resolution imaging capabilities.
Latest Patents
Hosoya's latest patents include a "Method for adjusting charged particle beam device and adjusting beam aperture based on a selected emission condition" and a "charged particle beam device for same." These inventions aim to enable versatile charged particle beam devices that can be used for a wide range of samples. The first patent addresses the challenge of operating charged particle beam devices with parameters that are difficult to register in advance. It includes features such as a charged particle source, focusing lenses, a movable objective aperture, and a display unit for processing and displaying detected signals. The second patent provides a charged particle beam apparatus that allows for the observation of samples in gas or liquid states, preventing scattering of the charged particle beam by unwanted liquids.
Career Highlights
Kohtaro Hosoya is associated with Hitachi High-Technologies Corporation, where he applies his expertise in charged particle beam technology. His innovative work has positioned him as a key figure in advancing the capabilities of charged particle beam devices.
Collaborations
Hosoya collaborates with notable colleagues, including Kunji Shigeto and Mitsugu Sato, who contribute to the development and refinement of his inventions.
Conclusion
Kohtaro Hosoya's contributions to charged particle beam technology reflect his commitment to innovation and excellence. His patents not only enhance the functionality of charged particle beam devices but also make them more accessible to a broader range of users.