Add to ORKGInternational audienceSwift heavy ions can be used to modify material surfaces on the nanometer scale. In particular, the irradiation of a target surface under grazing angle of incidence offers new possibilities to create chains of individual nanodots with different lengths. The length of these chains can be controlled by the angle of incidence. So far, this method could be successfully applied for insulating materials. The present work dealt with nanosized tracks on the well-known highly oriented pyrolytic graphite surface. By using atomic force microscopy and scanning tunneling microscopy, comparative studies of two different ion beam energies and ion types have been performed. From the analysis of the scanning probe microscopy results, t...
On its way through a solid, an energetic heavy ion deposits an enormous amount of kinetic energy per...
We have studied the scanning tunneling microscopy tip interaction with the naturally formed nanotube...
International audienceWe present experimental and theoretical data on the threshold behaviour of nan...
International audienceSwift heavy ions can be used to modify material surfaces on the nanometer scal...
Scanning tunneling microscopy (STM) has been applied extensively to study the composition and distri...
We present systematic scanning tunneling microscopy (STM)/atomic-force microscopic (AFM) investigati...
Scanning Tunneling Microscopy (STM) is an efficient technique which allows imaging solid surfaces wi...
International audienceHighly ordered pyrolitic graphite (HOPG) was irradiated with slow highly charg...
The interaction between slow highly-charged ions (SHCI) of different charge states from an electron-...
Scanning tunneling microscopy (STM) and atomic force microscopy (AFM) were used to investigate the s...
Atomic scale modifications and subsequent atomic resolution imaging has been achieved on the highly ...
Scanning tunneling microscope is used to create local surface modifications by means of ion impact d...
International audienceSome recent results concerning swift heavy ion irradiation of thin SiO2 layers...
The individual damage on high oriented pyrolytic graphite surface induced by gold ions of 530 keV - ...
On its way through a solid, an energetic heavy ion deposits an enormous amount of kinetic energy per...
We have studied the scanning tunneling microscopy tip interaction with the naturally formed nanotube...
International audienceWe present experimental and theoretical data on the threshold behaviour of nan...
International audienceSwift heavy ions can be used to modify material surfaces on the nanometer scal...
Scanning tunneling microscopy (STM) has been applied extensively to study the composition and distri...
We present systematic scanning tunneling microscopy (STM)/atomic-force microscopic (AFM) investigati...
Scanning Tunneling Microscopy (STM) is an efficient technique which allows imaging solid surfaces wi...
International audienceHighly ordered pyrolitic graphite (HOPG) was irradiated with slow highly charg...
The interaction between slow highly-charged ions (SHCI) of different charge states from an electron-...
Scanning tunneling microscopy (STM) and atomic force microscopy (AFM) were used to investigate the s...
Atomic scale modifications and subsequent atomic resolution imaging has been achieved on the highly ...
Scanning tunneling microscope is used to create local surface modifications by means of ion impact d...
International audienceSome recent results concerning swift heavy ion irradiation of thin SiO2 layers...
The individual damage on high oriented pyrolytic graphite surface induced by gold ions of 530 keV - ...
On its way through a solid, an energetic heavy ion deposits an enormous amount of kinetic energy per...
We have studied the scanning tunneling microscopy tip interaction with the naturally formed nanotube...
International audienceWe present experimental and theoretical data on the threshold behaviour of nan...