Add to ORKGWide band gap semiconductors are attractive for several microelectronic and photonic applications such as high power amplifiers, LEDs and laser diodes. Particularly, GaN-based semiconductors are promising as they exhibit attractive properties such as low intrinsic carrier concentration and high thermal conductivity, even at high operating temperatures and harsh environments. In this project, GaN-based wide bandgap semiconductor materials grown using molecular beam epitaxy were studied. Electrical characterization including Current-voltage and Capacitance-voltage characteristics were carried out and the results were analyzed and correlated with growth parameters. Carrier profile measurements were also performed and studied. Temperature depe...
Ammonia-MBE growth techniques were developed to allow the production of AlGaN and GaN layers suitabl...
The Gallium Nitride (GaN) layers grown on silicon substrates by electron beam evaporation technique....
GaN-based microwave power amplifiers have been identified as critical components in Sandia's next ge...
Wide band gap semiconductors are attractive for several microelectronic and photonic applications su...
Applications in electronic and integrated circuits are mainly supported by the Si-based semiconducto...
For electrical characterization, experimental setups for current-voltage-, capacitance-voltage- and ...
Gallium nitride (GaN) has gained the interest of both the academics and electronic companies in rece...
This thesis describes novel research carried out on two related topics, the electrical properties of...
In recent years, research on Gallium nitride material is popular among the semiconductor researchers...
118 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2006.This thesis work presents a c...
In recent years, a significant progress has been made in the development of III-V Nitrides based dev...
Group–III nitride semiconductors are viewed as the next-gen materials due to the high potential in o...
The first gallium nitride (GaN) crystal was grown by hydride vapor phase epitaxy in 1969 by Maruska ...
The hydride vapor phase epitaxy technique has been used to grow bulk GaN crystals for processing int...
The objectives of this project were to investigate the optical and electrical properties of III-nitr...
Ammonia-MBE growth techniques were developed to allow the production of AlGaN and GaN layers suitabl...
The Gallium Nitride (GaN) layers grown on silicon substrates by electron beam evaporation technique....
GaN-based microwave power amplifiers have been identified as critical components in Sandia's next ge...
Wide band gap semiconductors are attractive for several microelectronic and photonic applications su...
Applications in electronic and integrated circuits are mainly supported by the Si-based semiconducto...
For electrical characterization, experimental setups for current-voltage-, capacitance-voltage- and ...
Gallium nitride (GaN) has gained the interest of both the academics and electronic companies in rece...
This thesis describes novel research carried out on two related topics, the electrical properties of...
In recent years, research on Gallium nitride material is popular among the semiconductor researchers...
118 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2006.This thesis work presents a c...
In recent years, a significant progress has been made in the development of III-V Nitrides based dev...
Group–III nitride semiconductors are viewed as the next-gen materials due to the high potential in o...
The first gallium nitride (GaN) crystal was grown by hydride vapor phase epitaxy in 1969 by Maruska ...
The hydride vapor phase epitaxy technique has been used to grow bulk GaN crystals for processing int...
The objectives of this project were to investigate the optical and electrical properties of III-nitr...
Ammonia-MBE growth techniques were developed to allow the production of AlGaN and GaN layers suitabl...
The Gallium Nitride (GaN) layers grown on silicon substrates by electron beam evaporation technique....
GaN-based microwave power amplifiers have been identified as critical components in Sandia's next ge...