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Interaction of slow highly charged ions with the inner surface of nanocapillaries

✍ Scribed by R. Hellhammer; P. Sobocinski; Z.D. Pešić; J. Bundesmann; D. Fink; N. Stolterfoht

Publisher
Elsevier Science
Year
2005
Tongue
English
Weight
188 KB
Volume
232
Category
Article
ISSN
0168-583X

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✦ Synopsis

The transmission of 1-10 keV Ne 7+ ions through nanocapillaries in a highly insulating PET polymer was studied. Capillaries with a diameter of 100 nm and a length of 10 lm in PET were produced using chemical etching techniques. For slow projectiles the angular distributions of the transmitted ions show that they are predominantly transported in their initial charge state along the capillary axis even when the capillaries are tilted with respect to the incident beam direction. This result indicates ion-guiding, which is produced by charge-up effects influencing the ion trajectories in a self-supporting manner. Emphasis is given to results studying the projectile-energy dependence of the capillary guiding. A relatively strong energy dependence is observed for the fraction of guided ions. Guiding effects for the studied Ne 7+ ions are found to diminish at projectile energies above about 10 keV.

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Interaction of slow highly charged ions with insulator as well as metallic surfaces is discussed. In addition to the usual flat surface targets, studies with thin foils having a multitude of straight holes of $100 nm in diameter (micro-capillary foil) are introduced, which provide various unique inf