Atmospheric Pressure Plasma Experiment Device ATMP-1000
An atmospheric pressure plasma experimental device that allows for experiments with atmospheric pressure plasma simply by connecting the power supply and the gas to be plasma-activated. 【Features】 ○ Reliable ignition achieved by equipping a powerful ignition device and an electron source. ○ High maintenance efficiency due to a simple structure. ○ High plasma ignition capability provided by the ignition device. ● For other functions and details, please download the catalog.
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basic information
An atmospheric pressure plasma experimental device that allows for experiments with atmospheric pressure plasma simply by connecting the power supply and the gas to be plasma-activated. 【Features】 ○ Reliable ignition achieved by equipping a powerful ignition device and an electron source. ○ High maintainability due to a simple structure. ○ High plasma ignition capability with the ignition device. ● For other functions and details, please download the catalog.
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Applications/Examples of results
【Applications】 ○ Exhaust gas treatment ○ Luminescent trace analysis ○ Surface treatment ○ Film formation ○ Ultra-fine particle creation
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Company information
In 1972, the first president, Horita, established Taisei Sangyo Co., Ltd. using the entrance of his home as a workplace, and since then, we have been dedicated to technology development and research. Initially, we were involved in the development of devices such as the Polack counter for the Meteorological Research Institute, starting our work in the field of atmospheric science. Subsequently, we expanded our work into the vacuum world by starting maintenance services for leak detectors. Around the 10th anniversary of our founding, work in ultra-high vacuum began to increase, and by the 15th anniversary, we were able to manufacture small devices. Currently, our scope of work has significantly expanded, not only covering ultra-high vacuum, MBE, CVD, ECR, and RF radical sources, but also advancing the development of functional components utilizing various plasmas, ions, or electrons. In the future, we aim to become a small enterprise that can truly compete in the world of cutting-edge technology.