On the amplification of acoustic phonons in carbon nanotube

Abstract

We present a theoretical study of acoustic phonons amplification in Carbon Nanotubes (CNT). The phenomenon is via Cerenkov emission (CE) of acoustic phonons using intraband transitions proposed by Mensah et. al.,~1 in Semiconductor Superlattices (SSL) and confirmed in ~2. From this, an asymmetric graph of CNT on VdVs and τ were obtained where amplification (ampCNT) >> absorption (absCNT). The ratio, ampCNTabsCNT≈ 3.5, at Vd = 1.02Vs, ωq = 3.0\ THz and T = 85\ K for scattering angle θ > 0 . A threshold field at which absCNT switches over to ampCNT was calculated to be Ezdc = 6.2× 103\ V/m. This field is far less than that deduced using Bloch-Type Oscillation (BTO)~3 which is EBTOdc = 3.0× 105\ V/m. The obtained ampCNT would enable the use of CNT for the production of SASER.