One- and two-photon-induced magneto-optical properties of hyperbolic-type quantum wells

“…Therefore, the research of low-dimensional semiconductor materials has actually become one of the major topics of global scientific research. [7][8][9][10][11][12] In the process of performance research of low-dimensional semiconductor materials by many scientists, the research on nonlinear optical properties has attracted the interest of many researchers, including two aspects: one is the influence of shape and structural parameters in low-dimensional semiconductor structures on nonlinear optical properties, such as parabolic, [13] semiparabolic, [14] exponential, [15] semiexponential, [16] ladder, [17] hyperbolic, [18] and cone. [19] The other is the influence of other factors in the low-dimensional structural system, such as C.M.…”

Third Harmonic Generation in Al_0.3Ga_0.7As/GaAs Quantum Dots: the Influence of the Structure Parameter, Static Electric, and Magnetic Field

“…Therefore, the research of low-dimensional semiconductor materials has actually become one of the major topics of global scientific research. [7][8][9][10][11][12] In the process of performance research of low-dimensional semiconductor materials by many scientists, the research on nonlinear optical properties has attracted the interest of many researchers, including two aspects: one is the influence of shape and structural parameters in low-dimensional semiconductor structures on nonlinear optical properties, such as parabolic, [13] semiparabolic, [14] exponential, [15] semiexponential, [16] ladder, [17] hyperbolic, [18] and cone. [19] The other is the influence of other factors in the low-dimensional structural system, such as C.M.…”

Third Harmonic Generation in Al_0.3Ga_0.7As/GaAs Quantum Dots: the Influence of the Structure Parameter, Static Electric, and Magnetic Field

“…On the other side, this is due to the unavoidable presence of interface roughness introduces a scattering mechanism, first addressed by H. Sakaki et al [3], which is absent in bulk semiconductors. Where electron-optical phonon interaction in such low-dimensional structures is the dominant energy-loss mechanism and represents a key parameter for the design and realization of electronic and optoelectronic devices [4,5]. In these nanostructures, the confined states of the electron are original of many novel physical effects as well as dominant features with importance in practical applications of the fabrication potentials of nanodevices in optoelectronics [6].…”

Effect of the electronic confinement potential on the electron–LO-phonon interaction energy in a quantum well

Nonlinear magneto-optical absorption in a finite semi-parabolic quantum well