Add to ORKGA direct ion beam deposition system designed for heteroepitaxy at a low substrate temperature and for the growth of metastable compounds has been constructed and tested. The system consists of two mass-resolved low-energy ion beams which merge at the target with an incident energy range 50-25 000 eV. Each ion beam uses a Freeman ion source for ion production and a magnetic sector for mass filtering. While a magnetic quadrupole lens is used in one beam for ion optics, an electrostatic quadrupole lens focuses the other beam. Both focusing approaches provide a current density more than 100-mu-A/cm2, although the magnetic quadrupole gives a better performance for ion energies below 200 eV. The typical current of each beam reaches more than...
A variation of the von Ardenne type of a duoplasmatron ion source is described. Here the arc dischar...
Focused ion beam instruments a re indispensable tools for the semiconductor industry due to their ab...
Laser ion sources offer the possibility to get ion beam utilizable to improve particle accelerators....
A dual-source mass-analysed low-energy ion beam system, intended for investigations into novel mater...
The design and characteristics of a dual ion beam epitaxy system (DIBE) are discussed. This system i...
For the synthesis of high-quality thin films, ion-beam assisted deposition (IBAD) is a frequently us...
In the thesis the development of two equipment for preparation of ultrathin films under ultrahign va...
The paper describes experiments on the generation and transport of a low energy (70-120 keV), high i...
The Mass Analyzed Low Energy Dual Ion Beam Epitaxy (MALE-DIBE) system has been designed and construc...
We have fabricated high qual i ty superconduct ing NbNxC t h i n films us ing a low-energy dual ion-...
A next generation ion source suitable for both high resolution focused ion beam milling and imaging ...
High-brightness ion sources are important for several applications such as focussed ion beam (FIB) s...
The energy spreads of ion beams generated from a penning ionization gauge-type ion source with elect...
We are developing two high-throughput technologies for materials modification. The first is a repeti...
The technical objective of the project was to develop an ultra-low-energy, high-intensity ion source...
A variation of the von Ardenne type of a duoplasmatron ion source is described. Here the arc dischar...
Focused ion beam instruments a re indispensable tools for the semiconductor industry due to their ab...
Laser ion sources offer the possibility to get ion beam utilizable to improve particle accelerators....
A dual-source mass-analysed low-energy ion beam system, intended for investigations into novel mater...
The design and characteristics of a dual ion beam epitaxy system (DIBE) are discussed. This system i...
For the synthesis of high-quality thin films, ion-beam assisted deposition (IBAD) is a frequently us...
In the thesis the development of two equipment for preparation of ultrathin films under ultrahign va...
The paper describes experiments on the generation and transport of a low energy (70-120 keV), high i...
The Mass Analyzed Low Energy Dual Ion Beam Epitaxy (MALE-DIBE) system has been designed and construc...
We have fabricated high qual i ty superconduct ing NbNxC t h i n films us ing a low-energy dual ion-...
A next generation ion source suitable for both high resolution focused ion beam milling and imaging ...
High-brightness ion sources are important for several applications such as focussed ion beam (FIB) s...
The energy spreads of ion beams generated from a penning ionization gauge-type ion source with elect...
We are developing two high-throughput technologies for materials modification. The first is a repeti...
The technical objective of the project was to develop an ultra-low-energy, high-intensity ion source...
A variation of the von Ardenne type of a duoplasmatron ion source is described. Here the arc dischar...
Focused ion beam instruments a re indispensable tools for the semiconductor industry due to their ab...
Laser ion sources offer the possibility to get ion beam utilizable to improve particle accelerators....