Add to ORKGThe evolution of sheet resistance of n-type GaN epilayers exposed to irradiation with MeV H, Li, C, and O ions is studied in situ. Results show that the threshold dose necessary for complete isolation linearly depends on the original free electron concentration and reciprocally depends on the number of atomic displacements produced by ion irradiation. Furthermore, such isolation is stable to rapid thermal annealing at temperatures up to 900 °C. In addition to providing a better understanding of the physical mechanisms responsible for electrical isolation, these results can be used for choosing implant conditions necessary for an effective electrical isolation of GaN-based devices
Mg+ ions were implanted at room temperature in n-type hexagonal GaN for the device isolation purpose...
Nitride-based light emitting diodes (LEDs) is an attractive material due to its high temperature tol...
The effects of implant conditions on the damage build-up in wurtzite GaN films are studied by Ruther...
We study the evolution of sheet resistance of n-type GaN epilayers irradiated with MeV 1H and 12C io...
Both n- and p-type doping have been achieved in GaN using Si{sup +} or Mg{sup +}/P{sup +} implantati...
The evolution of the sheet resistance (Rs) in n-type GaAs layers during ion irradiation was studied ...
Multiple-energy (30-325 keV) O{sup +} implantation into GaN field-effect transistor structures (n {a...
A multienergy oxygen ion implantation process was demonstrated to be compatible with the processing ...
In this work, Wurtzite GaN films were implanted with 15KeV, 55KeV and 150KeV He ion respectively wit...
A study of the evolution of sheet resistance of p- and n-type In₀.₅₃Ga₀.₄₇As epilayers during O, C, ...
[[abstract]]GaN material is one of the greatest advantages in Semiconductor Field with high frequenc...
Group-III-nitride semiconductors (GaN, InGaN, and AlGaN) are important for the fabrication of a rang...
The structure and crystal quality of GaN using Rutherford Backscattering Spectrometry and Channeling...
In the present work, the resistivity, mobility and the carrier density at either room temperature or...
The electrical isolation of p-type GaAs layers doped with acceptor impurities incorporated in the Ga...
Mg+ ions were implanted at room temperature in n-type hexagonal GaN for the device isolation purpose...
Nitride-based light emitting diodes (LEDs) is an attractive material due to its high temperature tol...
The effects of implant conditions on the damage build-up in wurtzite GaN films are studied by Ruther...
We study the evolution of sheet resistance of n-type GaN epilayers irradiated with MeV 1H and 12C io...
Both n- and p-type doping have been achieved in GaN using Si{sup +} or Mg{sup +}/P{sup +} implantati...
The evolution of the sheet resistance (Rs) in n-type GaAs layers during ion irradiation was studied ...
Multiple-energy (30-325 keV) O{sup +} implantation into GaN field-effect transistor structures (n {a...
A multienergy oxygen ion implantation process was demonstrated to be compatible with the processing ...
In this work, Wurtzite GaN films were implanted with 15KeV, 55KeV and 150KeV He ion respectively wit...
A study of the evolution of sheet resistance of p- and n-type In₀.₅₃Ga₀.₄₇As epilayers during O, C, ...
[[abstract]]GaN material is one of the greatest advantages in Semiconductor Field with high frequenc...
Group-III-nitride semiconductors (GaN, InGaN, and AlGaN) are important for the fabrication of a rang...
The structure and crystal quality of GaN using Rutherford Backscattering Spectrometry and Channeling...
In the present work, the resistivity, mobility and the carrier density at either room temperature or...
The electrical isolation of p-type GaAs layers doped with acceptor impurities incorporated in the Ga...
Mg+ ions were implanted at room temperature in n-type hexagonal GaN for the device isolation purpose...
Nitride-based light emitting diodes (LEDs) is an attractive material due to its high temperature tol...
The effects of implant conditions on the damage build-up in wurtzite GaN films are studied by Ruther...