Add to ORKGThe Mass Analyzed Low Energy Dual Ion Beam Epitaxy (MALE-DIBE) system has been designed and constructed in our laboratory. We believe that the system, which was installed and came into full operation in 1988, is the first facility of this kind. With our system we have carried out studies, for the first time, on compound synthesis of GaN and CoSi2 epitaxial thin films. RHEED and AES results show that GaN films, which were deposited on Si and sapphire substrates, are monocrystalline and of good stoichiometry. To our knowledge, GaN film heteroepitaxially grown on Si. which is more lattice-mismatched than GaN on sapphire, has not been reported before by other authors. RBS and TEM investigations indicated a rather good crystallinity of CoSi2 wit...
The objective of this master thesis was to provide the optimization of an ion-atom beam source for t...
Highly oriented GaN thin films were grown on Si(111) substrate using an ion beam assisted evaporatio...
We achieve high quality epitaxial GaN film growth on sapphire (0001) and 6H-SiC (0001) substrates by...
The design and characteristics of a dual ion beam epitaxy system (DIBE) are discussed. This system i...
GaN epitaxial films were grown on silicon substrates by molecular beam epitaxy under different condi...
Epitaxial CoSi2 (001) layers, deposited on Si(001) substrates by molecular beam allotaxy, were used ...
A direct ion beam deposition system designed for heteroepitaxy at a low substrate temperature and fo...
Epitaxial CoSi2 (001) layers, deposited on Si(001) substrates by molecular beam allotaxy, were used ...
For the advance of GaN based optoelectronic devices, one of the major barriers has been the high def...
With the aim of investigating the possible integration of optoelectronic devices, epitaxial GaN laye...
The assistance of thin film deposition with low-energy ion bombardment influences their final proper...
Unintentionally doped and silicon doped GaN films prepared by molecular beam epitaxy using ammonia a...
Single crystal GaN films have been grown on to an Al2O3 coated (001)Si substrate in a horizontal-typ...
Gallium nitride (GaN) is an attractive material with a wide-direct band gap (3.4 eV) and is one of t...
6H-SiC is currently the best subtrate used in the growth of III-V quantum heterostructures due to a ...
The objective of this master thesis was to provide the optimization of an ion-atom beam source for t...
Highly oriented GaN thin films were grown on Si(111) substrate using an ion beam assisted evaporatio...
We achieve high quality epitaxial GaN film growth on sapphire (0001) and 6H-SiC (0001) substrates by...
The design and characteristics of a dual ion beam epitaxy system (DIBE) are discussed. This system i...
GaN epitaxial films were grown on silicon substrates by molecular beam epitaxy under different condi...
Epitaxial CoSi2 (001) layers, deposited on Si(001) substrates by molecular beam allotaxy, were used ...
A direct ion beam deposition system designed for heteroepitaxy at a low substrate temperature and fo...
Epitaxial CoSi2 (001) layers, deposited on Si(001) substrates by molecular beam allotaxy, were used ...
For the advance of GaN based optoelectronic devices, one of the major barriers has been the high def...
With the aim of investigating the possible integration of optoelectronic devices, epitaxial GaN laye...
The assistance of thin film deposition with low-energy ion bombardment influences their final proper...
Unintentionally doped and silicon doped GaN films prepared by molecular beam epitaxy using ammonia a...
Single crystal GaN films have been grown on to an Al2O3 coated (001)Si substrate in a horizontal-typ...
Gallium nitride (GaN) is an attractive material with a wide-direct band gap (3.4 eV) and is one of t...
6H-SiC is currently the best subtrate used in the growth of III-V quantum heterostructures due to a ...
The objective of this master thesis was to provide the optimization of an ion-atom beam source for t...
Highly oriented GaN thin films were grown on Si(111) substrate using an ion beam assisted evaporatio...
We achieve high quality epitaxial GaN film growth on sapphire (0001) and 6H-SiC (0001) substrates by...