Электрофизические и фотолюминесцентные исследования сверхрешeток \LT-GaAs/GaAs : Si\, выращенных методом молекулярно-лучевой эпитаксии на подложках GaAs с ориентацией (100) и (111)А

Abstract: The results of studying semiconductor structures proposed for the first time and grown, which combine the properties of LT-GaAs with p -type conductivity upon doping with Si, are presented. The structures are {LT-GaAs/GaAs:Si} superlattices, in which the LT-GaAs layers are grown at a low temperature (in the range 280–350°C) and the GaAs:Si layers at a higher temperature (470°C). The p -type conductivity upon doping with Si is provided by the use of GaAs(111)A substrates and the choice of the growth temperature… Show more

“…At the same time, the maximum SHG coefficient does not mean at all that the observed intensity of the generated radiation at the doubled frequency will necessarily be maximum. Indeed, in the double resonance regime, both lasing and generated radiation can be strongly absorbed, i.e., resonant optical transitions can lead to strong lasing at the frequency 2ω, but at the same time to strong absorption at frequencies ω and 2ω [1][2][3][4][5][6].…”

Energy States of Particles in a Quantum Sized Structure With a Complex Shaped Band Diagram

“…At the same time, the maximum SHG coefficient does not mean at all that the observed intensity of the generated radiation at the doubled frequency will necessarily be maximum. Indeed, in the double resonance regime, both lasing and generated radiation can be strongly absorbed, i.e., resonant optical transitions can lead to strong lasing at the frequency 2ω, but at the same time to strong absorption at frequencies ω and 2ω [1][2][3][4][5][6].…”

Energy States of Particles in a Quantum Sized Structure With a Complex Shaped Band Diagram