W. Meissl scite author profile

Upon impact on a solid surface, the potential energy stored in slow highly charged ions is primarily deposited into the electronic system of the target. By decelerating the projectile ions to kinetic energies as low as 150 x q eV, we find first unambiguous experimental evidence that potential energy alone is sufficient to cause permanent nanosized hillocks on the (111) surface of a CaF(2) single crystal. Our investigations reveal a surprisingly sharp and well-defined threshold of potential energy for hillock formation which can be linked to a solid-liquid phase transition.

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Investigation of an atmospheric pressure radio-frequency capacitive plasma jet

Laimer

Haslinger

Meissl

et al. 2005

Vacuum

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Nano-sized surface modifications induced by the impact of slow highly charged ions – A first review

Aumayr

El-Said

Meissl

2008

Nuclear Instruments and Methods in Physics Research Section B:

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Potential energy threshold for nano-hillock formation by impact of slow highly charged ions on a CaF2(111) surface

El-Said

Meissl

Simon

et al. 2007

Nuclear Instruments and Methods in Physics Research Section B:

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On the nano-hillock formation induced by slow highly charged ions on insulator surfaces

Lemell

El-Said

Meissl

et al. 2007

Solid-State Electronics

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W. Meissl

Creation of Nanohillocks onCaF2Surfaces by Single Slow Highly Charged Ions

Investigation of an atmospheric pressure radio-frequency capacitive plasma jet

Nano-sized surface modifications induced by the impact of slow highly charged ions – A first review

Potential energy threshold for nano-hillock formation by impact of slow highly charged ions on a CaF2(111) surface

On the nano-hillock formation induced by slow highly charged ions on insulator surfaces

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