NANOSYSTEMS
Intraband absorption of electromagnetic radiation by electrons with optical phonon participation in quantum dot superlattices
Ibragimov Guseyn Behbud, Ibayeva Raida Zabit
Physics Institute of Azerbaijan National Academy of Sciences, https://physics.gov.az/
33, ave. G. Javida, Baku AZ1143, Azerbaijan
E-mail: guseyn_gb@mail.ru, raidaibayeva1@gmail.com
Received December 08, 2023, peer-reviewed December 15, 2024, accepted December 22, 2024, published April 25, 2024
Abstract: In this paper, we investigate the absorption of electromagnetic radiation by a free electron gas interacting with lattice vibrations in a quantum dot superlattice. It is assumed that the electron gas in the quantum dot superlattice is limited by the anisotropic parabolic potential. The absorption of light by free carriers with the participation of phonons is calculated in the second order of the perturbation theory. When calculating the absorption coefficient, the matrix elements of the electron-photon and electron-phonon interactions (with polar and nonpolar optical phonons) are used. We can expect three possible transitions in the absorption coefficient for electron-polar phonon scattering: (1) a transition due to the size subband levels for only the x direction, (2) a transition due to the size subband levels for only the y direction and (3) a transition due to the size subband levels for both the x direction and the y direction. For electron-nonpolar phonon scattering we can expect оnly one possible transitions in the, the absorption coefficient: a transition due to the size subband levels for both the x direction and the y direction.
Keywords: quantum dot, superlattice, miniband, intraband absorption
UDC 621.315.592
RENSIT, 2024, 16(2):249-254e
DOI: 10.17725/j.rensit.2024.16.249
Full-text electronic version of this article - web site http://en.rensit.ru/vypuski/article/552/16(2)249-254e.pdf