Add to ORKGWe explore the growth of low-temperature bulk-like Si(100) homoepitaxy with regard to microscopic surface roughness and defects We characterize films grown at different temperatures up to 500K in-situ by means of an effusion cell added to our UHVSTM. The development of novel architectures for future generation computers calls for high-quality homoepitaxial (WOO) grown at low temperature. Even though Si(100) can be grown crystalline up to a limited thickness: the microstructure reveals significant small-scale surface roughness and defects specific to low-temperature growth. Both can he detrimental to fabrication and operation of small-scale electronic devices
High quality homoepitaxialgrowth of Si on Si(111) through an overlayer of Au is shown to occur at 45...
Low-temperature (<= 200 degrees C) epitaxial growth yields precise thickness, doping, and thermal-bu...
The material quality degradation of silicon wafers by metal impurities, various crystal defects as w...
Reflection high energy electron diffraction (RHEED) was used to investigate surface roughening durin...
We present a structural and chemical analysis of high-vacuum deposited Si filmsgrown on clean or oxi...
In this paper, structural and electrical properties of thin p type Si films which are homoepitaxiall...
A monolayer of Pb mediates high-quality homoepitaxialgrowth on Si (111) surfaces at temperatures whe...
We have previously reported on the low-temperature (T = 300–475 °C) epitaxial growth of thin silicon...
The thesis is focused on study of growth of tin chains on Si(100) surface deposited ...
We have confirmed in a combined diffraction and STM study that the usual kinetic growth manipulation...
We report a study of the surface morphology and microstructure of Si epitaxial layers grown by MBE o...
This study addresses the correlation of the electrical, surface, and structural evolution of HWCVD c...
The fabrication of low temperature polycrystalline silicon with internal surface passivation and wit...
Undoped silicon Si films have been deposited on Si 100 substrates by pulsed magnetron sputtering...
The low temperature homoepitaxial growth of silicon has been probed in situ by Reflection High Energ...
High quality homoepitaxialgrowth of Si on Si(111) through an overlayer of Au is shown to occur at 45...
Low-temperature (<= 200 degrees C) epitaxial growth yields precise thickness, doping, and thermal-bu...
The material quality degradation of silicon wafers by metal impurities, various crystal defects as w...
Reflection high energy electron diffraction (RHEED) was used to investigate surface roughening durin...
We present a structural and chemical analysis of high-vacuum deposited Si filmsgrown on clean or oxi...
In this paper, structural and electrical properties of thin p type Si films which are homoepitaxiall...
A monolayer of Pb mediates high-quality homoepitaxialgrowth on Si (111) surfaces at temperatures whe...
We have previously reported on the low-temperature (T = 300–475 °C) epitaxial growth of thin silicon...
The thesis is focused on study of growth of tin chains on Si(100) surface deposited ...
We have confirmed in a combined diffraction and STM study that the usual kinetic growth manipulation...
We report a study of the surface morphology and microstructure of Si epitaxial layers grown by MBE o...
This study addresses the correlation of the electrical, surface, and structural evolution of HWCVD c...
The fabrication of low temperature polycrystalline silicon with internal surface passivation and wit...
Undoped silicon Si films have been deposited on Si 100 substrates by pulsed magnetron sputtering...
The low temperature homoepitaxial growth of silicon has been probed in situ by Reflection High Energ...
High quality homoepitaxialgrowth of Si on Si(111) through an overlayer of Au is shown to occur at 45...
Low-temperature (<= 200 degrees C) epitaxial growth yields precise thickness, doping, and thermal-bu...
The material quality degradation of silicon wafers by metal impurities, various crystal defects as w...