Add to ORKGElectric transport properties measured by Van der Pauw resistivity experiments of Low-Temperature Molecular Beam Epitaxy (LT-MBE) GaAs samples are used to identify a method to improve the resistivity of GaAs material. We present results on five samples grown at 265, 310, 315, 325, and 345 ºC. The electric measurements were carried out at temperatures ranging from 130 to 300 K. In this temperature range the dominant transport process is identified as variable range hopping. The hopping parameter plotted against the growth temperature is shown to present a maximum. The mechanisms responsible for this behavior are discussed in relation to the compensation ratio
As the growth temperature of molecular beam epitaxial GaAs is increased from 250 to 400 degrees C, t...
We have performed Hall-effect and conductivity measurements on MBE GaAs layers grown at 200-400 oC, ...
We have performed Hall-effect and conductivity measurements on MBE GaAs layers grown at 200-400 oC, ...
Electric transport properties measured by Van der Pauw resistivity experiments of Low-Temperature Mo...
The electrical conductivity of GaAs layers grown by molecular-beam epitaxy at low temperatures was s...
peer reviewedCurrent transport in low-temperature (LT) molecular-beam epitaxial GaAs grown at 200-30...
Current transport in low-temperature (LT) molecular-beam epitaxial GaAs grown at 200-300 °C on an n+...
Conductivity and Hall effect measurements have been performed on 2 μm thick molecular beam epitaxial...
Conductivity and Hall effect measurements have been performed on 2 μm thick molecular beam epitaxial...
Conductivity of GaAs layers grown by molecular beam epitaxy at low substrate temperature (190-200°C)...
We use the Hall effect and a new charge-transfer technique to study molecular beam epitaxial GaAs gr...
We use the Hall effect and a new charge-transfer technique to study molecular beam epitaxial GaAs gr...
This Article is brought to you for free and open access by the Physics at CORE Scholar. It has been ...
As the growth temperature of molecular beam epitaxial GaAs is increased from 250 to 400 degrees C, t...
We have performed Hall-effect and conductivity measurements on MBE GaAs layers grown at 200-400 oC, ...
As the growth temperature of molecular beam epitaxial GaAs is increased from 250 to 400 degrees C, t...
We have performed Hall-effect and conductivity measurements on MBE GaAs layers grown at 200-400 oC, ...
We have performed Hall-effect and conductivity measurements on MBE GaAs layers grown at 200-400 oC, ...
Electric transport properties measured by Van der Pauw resistivity experiments of Low-Temperature Mo...
The electrical conductivity of GaAs layers grown by molecular-beam epitaxy at low temperatures was s...
peer reviewedCurrent transport in low-temperature (LT) molecular-beam epitaxial GaAs grown at 200-30...
Current transport in low-temperature (LT) molecular-beam epitaxial GaAs grown at 200-300 °C on an n+...
Conductivity and Hall effect measurements have been performed on 2 μm thick molecular beam epitaxial...
Conductivity and Hall effect measurements have been performed on 2 μm thick molecular beam epitaxial...
Conductivity of GaAs layers grown by molecular beam epitaxy at low substrate temperature (190-200°C)...
We use the Hall effect and a new charge-transfer technique to study molecular beam epitaxial GaAs gr...
We use the Hall effect and a new charge-transfer technique to study molecular beam epitaxial GaAs gr...
This Article is brought to you for free and open access by the Physics at CORE Scholar. It has been ...
As the growth temperature of molecular beam epitaxial GaAs is increased from 250 to 400 degrees C, t...
We have performed Hall-effect and conductivity measurements on MBE GaAs layers grown at 200-400 oC, ...
As the growth temperature of molecular beam epitaxial GaAs is increased from 250 to 400 degrees C, t...
We have performed Hall-effect and conductivity measurements on MBE GaAs layers grown at 200-400 oC, ...
We have performed Hall-effect and conductivity measurements on MBE GaAs layers grown at 200-400 oC, ...