Company Filing History:
Years Active: 1991-1993
Title: Tadaaki Miki: Innovator in Laser Technology
Introduction
Tadaaki Miki is a prominent inventor based in Osaka, Japan. He has made significant contributions to the field of laser technology, holding a total of 4 patents. His work focuses on enhancing the efficiency and stability of discharge excitation gas laser devices.
Latest Patents
One of Miki's latest patents is for a discharge excitation gas laser device. This device utilizes a laser medium gas and a pair of electrodes within a gas-tight vessel. The innovation involves discharging the laser medium gas while inverting the polarity of a DC pulse voltage applied to the electrodes for each pulse. This method ensures a uniform distribution of atoms and ions in the discharge region, even at high repetition rates. As a result, it achieves good stability of DC pulse discharge without unnecessarily increasing the flow speed of the laser medium gas or reducing pulse energy.
Another notable patent is for a control system of a pulsed light source. This system includes a laser that emits light in pulse form, responding to electric power from a variable power supply. A photodetector captures the light intensity and produces an electric signal. This signal is compared to a reference signal, allowing a control circuit to adjust the power supply output accordingly. This innovation enhances the control of output energy from the pulsed light source.
Career Highlights
Tadaaki Miki is associated with Matsushita Electric Industrial Co., Ltd., a leading company in the electronics industry. His work at this organization has allowed him to develop groundbreaking technologies in laser applications.
Collaborations
Miki has collaborated with notable coworkers, including Yasuhiro Shimada and Koichi Wani. Their combined expertise has contributed to advancements in laser technology and its applications.
Conclusion
Tadaaki Miki's contributions to laser technology through his innovative patents have significantly impacted the field. His work continues to inspire advancements in the efficiency and stability of laser devices.