Add to ORKGA new center related to AsGa has been found at relatively high concentrations (1017 cm-;3) in semi‐insulating (2×10;7 Ω cm) molecular beam epitaxial GaAs grown at 400 °C. Although the ir photoquenching and thermal recovery characteristics are nearly identical to those of ;EL2, the thermal activation energy is only 0.65±0.01 eV, much lower than the ;EL2 value of 0.75±0.01 eV. Other properties which are different include the electron‐capture barrier energy, hyperfine constant, and magnetic circular dichroism spectrum
We use the Hall effect and a new charge-transfer technique to study molecular beam epitaxial GaAs gr...
Electron paramagnetic resonance (EPR) has been used to study the growth of the dominant acceptor EPR...
Using a tunable color center laser, photoluminescence excitation measurements were performed on GaAs...
A new center related to AsGa has been found at relatively high concentrations (1017 cm-;3) in semi‐i...
By far, the largest thermally stimulated current trap in molecular beam epitaxial GaAs grown at 200–...
X‐ray photoelectron spectroscopic results show that molecular beam epitaxial GaAs grown at 200 °C ha...
A prominent thermally stimulated current peak T5 appearing in semi‐insulating GaAs is shown to photo...
Infrared optical absorption and Hall-effect techniques were employed to study deep defects in As-ric...
Recent infrared spectroscpic observations of local vibrational mode absorptions have revealed a numb...
Thermally stimulated current (TSC) spectra stimulated by infrared (hν≤1.12 eV) light at 90 K have be...
Studies on the electrical and optical properties of EL2 in various GaAs crystals are described espec...
EL2, the dominant deep defect in undoped as-grown GaAs has attracted tremendous interest because of ...
Molecular‐beam‐epitaxial GaAs grown at 200 °C has an extremely high (≳1019 cm−3) concentration of As...
We have measured the electron optical capture cross section, σ0n(hν), of EL2 (the most important nat...
Deep‐level transient spectroscopy has been performed on Si‐doped GaAs layers grown by molecular‐beam...
We use the Hall effect and a new charge-transfer technique to study molecular beam epitaxial GaAs gr...
Electron paramagnetic resonance (EPR) has been used to study the growth of the dominant acceptor EPR...
Using a tunable color center laser, photoluminescence excitation measurements were performed on GaAs...
A new center related to AsGa has been found at relatively high concentrations (1017 cm-;3) in semi‐i...
By far, the largest thermally stimulated current trap in molecular beam epitaxial GaAs grown at 200–...
X‐ray photoelectron spectroscopic results show that molecular beam epitaxial GaAs grown at 200 °C ha...
A prominent thermally stimulated current peak T5 appearing in semi‐insulating GaAs is shown to photo...
Infrared optical absorption and Hall-effect techniques were employed to study deep defects in As-ric...
Recent infrared spectroscpic observations of local vibrational mode absorptions have revealed a numb...
Thermally stimulated current (TSC) spectra stimulated by infrared (hν≤1.12 eV) light at 90 K have be...
Studies on the electrical and optical properties of EL2 in various GaAs crystals are described espec...
EL2, the dominant deep defect in undoped as-grown GaAs has attracted tremendous interest because of ...
Molecular‐beam‐epitaxial GaAs grown at 200 °C has an extremely high (≳1019 cm−3) concentration of As...
We have measured the electron optical capture cross section, σ0n(hν), of EL2 (the most important nat...
Deep‐level transient spectroscopy has been performed on Si‐doped GaAs layers grown by molecular‐beam...
We use the Hall effect and a new charge-transfer technique to study molecular beam epitaxial GaAs gr...
Electron paramagnetic resonance (EPR) has been used to study the growth of the dominant acceptor EPR...
Using a tunable color center laser, photoluminescence excitation measurements were performed on GaAs...