We have investigated the electro-optic properties of V-shaped InGaAs/GaAs quantum wires grown by MOCVD on patterned GaAs substrates. Two basic nanostructures have been fabricated: (i) single quantum wires and (ii) vertically stacked wires with different thickness of the barriers. The former exhibit a strong polarization anisotropy between the ground and the first excited states. The vertically stacked wires exhibit the formation of symmetric and antisymmetric states and a strong vertical coupling of the wavefunctions for narrow barrier widths. Based on these prototype structures we have fabricated an electro-optic modulator in wave-guide which exhibits a strong quantum confined Stark effect at room temperature, with bias as low as -2 V. The multiple wire stack has been used for the fabrication of a p-i-n quantum wire light emitter with the unprecedentedly low current threshold of 0.3 mA/ cm 2 at low temperature
Electro-optic properties of InGaAs/GaAs quantum wires with V-shaped profile
Passaseo A;
1998
Abstract
We have investigated the electro-optic properties of V-shaped InGaAs/GaAs quantum wires grown by MOCVD on patterned GaAs substrates. Two basic nanostructures have been fabricated: (i) single quantum wires and (ii) vertically stacked wires with different thickness of the barriers. The former exhibit a strong polarization anisotropy between the ground and the first excited states. The vertically stacked wires exhibit the formation of symmetric and antisymmetric states and a strong vertical coupling of the wavefunctions for narrow barrier widths. Based on these prototype structures we have fabricated an electro-optic modulator in wave-guide which exhibits a strong quantum confined Stark effect at room temperature, with bias as low as -2 V. The multiple wire stack has been used for the fabrication of a p-i-n quantum wire light emitter with the unprecedentedly low current threshold of 0.3 mA/ cm 2 at low temperatureI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.