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Sharp Transmission Coefficient in GaAs/AlAs Resonant Tunneling Diodes with (411)A Superflat Interfaces Grown by Molecular Beam Epitaxy
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In order to understand the improvedI–Vcharacteristics of GaAs/AlAs resonant tunneling diodes (RTDs) with (411)A superflat interfaces, transmission coefficient (T*T) was deduced from the second derivative (d2I/dV2) of the observedI–Vcurves. The peak width (full-width at half maximum, FWHM) of the transmission coefficient was found to be 8.6 meV, which was 18% smaller than that (10.5 meV) of the RTD simultaneously grown on a conventional (100) GaAs substrate. Photoluminescence (PL) measurements for the GaAs/AlAs double barrier structures of the RTDs themselves also showed a narrower linewidth for the (411)A sample (FWHM = 7.2 meV) than for the (100) sample (10.6 meV). This result suggests that electrons tunneling through the barriers are as sensitive to the interface roughness as excitons in the quantum well.
Title: Sharp Transmission Coefficient in GaAs/AlAs Resonant Tunneling Diodes with (411)A Superflat Interfaces Grown by Molecular Beam Epitaxy
Description:
In order to understand the improvedI–Vcharacteristics of GaAs/AlAs resonant tunneling diodes (RTDs) with (411)A superflat interfaces, transmission coefficient (T*T) was deduced from the second derivative (d2I/dV2) of the observedI–Vcurves.
The peak width (full-width at half maximum, FWHM) of the transmission coefficient was found to be 8.
6 meV, which was 18% smaller than that (10.
5 meV) of the RTD simultaneously grown on a conventional (100) GaAs substrate.
Photoluminescence (PL) measurements for the GaAs/AlAs double barrier structures of the RTDs themselves also showed a narrower linewidth for the (411)A sample (FWHM = 7.
2 meV) than for the (100) sample (10.
6 meV).
This result suggests that electrons tunneling through the barriers are as sensitive to the interface roughness as excitons in the quantum well.
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