We measure for the first time the average mechanical response of a III-V mixed crystal with a two-mode behavior, Ga1-xAlxAs, to a vibrational excitation at frequencies in the gap between the two optical-phonon branches. These frequencies are selected by the boundary conditions applied to the optical phonons confined in the GaAs layers of GaAs/Ga1-xAlxAs superlattices. We measure their variations with the composition of the alloy layer. The alloy lattice dynamics predicted in the coherent potential approximation is perfectly verified: The gap is shown to be divided into GaAs- and AlAs-type ranges. At the cutoff frequency the average damping becomes infinite.
Damping of optical phonons in Ga1-xAlxAs alloys
1991
Abstract
We measure for the first time the average mechanical response of a III-V mixed crystal with a two-mode behavior, Ga1-xAlxAs, to a vibrational excitation at frequencies in the gap between the two optical-phonon branches. These frequencies are selected by the boundary conditions applied to the optical phonons confined in the GaAs layers of GaAs/Ga1-xAlxAs superlattices. We measure their variations with the composition of the alloy layer. The alloy lattice dynamics predicted in the coherent potential approximation is perfectly verified: The gap is shown to be divided into GaAs- and AlAs-type ranges. At the cutoff frequency the average damping becomes infinite.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
