A numerical verification procedure and the effects of operating conditions in a large, vertical, and close-spaced reactor for metalorganic chemical vapor deposition are investigated through simulation and analysis. A set of epitaxy experiments are presented for verifying the growth rate of the gallium nitride (GaN) mechanism reported in our previous study. The full governing equations for continuity, momentum, energy, and chemical reaction are solved numerically. The results show that the real operating parameters (susceptor temperature: 1188 °C or 1238 °C; pressure: 100–300 torr) affect thin-film uniformity, and the predicted growth rates agree reasonably well with the experimental data, indicating the accuracy of the projected chemical re...
Over the last few decades, there was a substantial appeal on the growth of galliumnitride (Ga-N) ba...
[[abstract]]© 1999 Elsevier - A novel separate-flow reactor design provides a different stream chann...
In the study, presented in this paper, the growth of GaN layers by Hydride vapour phase epitaxy was ...
A numerical verification procedure and the effects of operating conditions in a large, vertical, and...
A numerical procedure was performed to simplify the complicated mechanism of an epitaxial thin-film ...
A detailed mathematical model for the growth of gallium nitride (GaN) in metalorganic chemical vapo...
Gallium nitride (GaN) thin film is an attractive material for manufacturing optoelectronic device ap...
A detailed reaction-tran sport model was studied in a showerhead reactor for metal organic chemical ...
The present paper focuses on the high-pressure metal-organic vapor phase epitaxy (MOVPE) upside-down...
Gallium Nitride is an important semiconductor that many industries use for consumer products such as...
Over the last few decades, there was a substantial appeal on the growth of gallium-nitride (Ga-N) ba...
We carried out a kinetic analysis of metallorganic vapor phase epitaxy (MOVPE) of GaN to investigate...
In this work, the GaN-MOCVD reactor with vertical spray structure is simulated, and a numerical sol...
The growth rate of GaN buffer layers on sapphire grown by metalorganic vapor-phase epitaxy (MOVPE) i...
We have studied the growth of gallium nitride on c-plane sapphire substrates. The layers were grown ...
Over the last few decades, there was a substantial appeal on the growth of galliumnitride (Ga-N) ba...
[[abstract]]© 1999 Elsevier - A novel separate-flow reactor design provides a different stream chann...
In the study, presented in this paper, the growth of GaN layers by Hydride vapour phase epitaxy was ...
A numerical verification procedure and the effects of operating conditions in a large, vertical, and...
A numerical procedure was performed to simplify the complicated mechanism of an epitaxial thin-film ...
A detailed mathematical model for the growth of gallium nitride (GaN) in metalorganic chemical vapo...
Gallium nitride (GaN) thin film is an attractive material for manufacturing optoelectronic device ap...
A detailed reaction-tran sport model was studied in a showerhead reactor for metal organic chemical ...
The present paper focuses on the high-pressure metal-organic vapor phase epitaxy (MOVPE) upside-down...
Gallium Nitride is an important semiconductor that many industries use for consumer products such as...
Over the last few decades, there was a substantial appeal on the growth of gallium-nitride (Ga-N) ba...
We carried out a kinetic analysis of metallorganic vapor phase epitaxy (MOVPE) of GaN to investigate...
In this work, the GaN-MOCVD reactor with vertical spray structure is simulated, and a numerical sol...
The growth rate of GaN buffer layers on sapphire grown by metalorganic vapor-phase epitaxy (MOVPE) i...
We have studied the growth of gallium nitride on c-plane sapphire substrates. The layers were grown ...
Over the last few decades, there was a substantial appeal on the growth of galliumnitride (Ga-N) ba...
[[abstract]]© 1999 Elsevier - A novel separate-flow reactor design provides a different stream chann...
In the study, presented in this paper, the growth of GaN layers by Hydride vapour phase epitaxy was ...