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A versatile plasma source at the core of tomorrow's innovations
For over two decades, Dr. Philippe Guittienne, physicist at the Swiss Plasma Center, has been pushing the boundaries of plasma production. In 2003, he pioneered the resonant network antenna, a novel technology that can overcome the limitations of conventional plasma sources. Today, this innovation paves the way for new applications, particularly in the microelectronics industry, a sector representing a global market worth several trillion francs. He reveals all the details of this breakthrough in a recent book titled Resonant Network Antennas for Radio-Frequency Plasma Sources, co-authored with his colleagues Dr. Alan Howling and Professor Ivo Furno. This impressive 500-page guide, rooted in the principles of open science, serves as a reference for researchers, engineers, and industry professionals looking to design, understand, and use this strategic technology.
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A versatile plasma source at the core of tomorrow's innovations
For over two decades, Dr. Philippe Guittienne, physicist at the Swiss Plasma Center, has been pushing the boundaries of plasma production. In 2003, he pioneered the resonant network antenna, a novel technology that can overcome the limitations of conventional plasma sources. Today, this innovation paves the way for new applications, particularly in the microelectronics industry, a sector representing a global market worth several trillion francs. He reveals all the details of this breakthrough in a recent book titled Resonant Network Antennas for Radio-Frequency Plasma Sources, co-authored with his colleagues Dr. Alan Howling and Professor Ivo Furno. This impressive 500-page guide, rooted in the principles of open science, serves as a reference for researchers, engineers, and industry professionals looking to design, understand, and use this strategic technology.
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A versatile plasma source at the core of tomorrow's innovations
For over two decades, Dr. Philippe Guittienne, physicist at the Swiss Plasma Center, has been pushing the boundaries of plasma production. In 2003, he pioneered the resonant network antenna, a novel technology that can overcome the limitations of conventional plasma sources. Today, this innovation paves the way for new applications, particularly in the microelectronics industry, a sector representing a global market worth several trillion francs. He reveals all the details of this breakthrough in a recent book titled Resonant Network Antennas for Radio-Frequency Plasma Sources, co-authored with his colleagues Dr. Alan Howling and Professor Ivo Furno. This impressive 500-page guide, rooted in the principles of open science, serves as a reference for researchers, engineers, and industry professionals looking to design, understand, and use this strategic technology.
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