A Bisection Break-Up Theory for Cluster Ions and Its Application to the Design of Mean Specific Size Controllers
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概要
- 論文の詳細を見る
The most important condition for additional heating or high temperature plasmas and refuelling of fusion reactors using energetic cluster ions is to give the proper energy to each constituent atom. This can be done by controlling their specific sizes and by accelerating the cluster ions by an appropriate voltage. A bisection break-up theory, in which cluster ions are assumed to be divided into two equal fragments by electrostatic repulsion arising from multiple ionization by electron impact is proposed for the first time. The purpose of this theory is to obtain the relation between the mean specific size and the electron current. The theory gives good agreement between the theoretical and the experimental values of the mean specific size of nitrogen cluster ions, demonstrating its applicability to the design of mean specific size controllers.
- 社団法人応用物理学会の論文
- 1980-07-05
著者
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Enjoji Hiroshi
Thermonuclear Fusion Laboratory The Institute Of Physical And Chemical Research
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Enjoji Hiroshi
Thermonuclear Fusion Laboratory Institute Of Physical And Chemical Research
関連論文
- Tailoring of Specific Sizes of Cluster Ions for Producing Intense Negative Ion Beams
- Discharge Mechanism of Energetic Carbon Arc
- A Bisection Break-Up Theory for Cluster Ions and Its Application to the Design of Mean Specific Size Controllers
- Low-Frequency Oscillations in a Magnetized Carbon Arc
- Effects of Break-Up Ratios and Distribution Functions of Specific Size on the Mean Specific Size of Cluster Ions