[1] R. Betancourt-Riera, R. Betancourt-Riera, L.A. Ferrer-Moreno, A.D. Sañu-Ginarte, Theory of electron Raman scattering in a semiconductor core/shell quantum well wire, Physica B. 563 (2019) 93–100.
[2] L. Van-Tan, T. Van Thang, N. Duy Vy, H. Thien Cao, Spin polarization and temperature dependence of electron effective mass in quantum wires, Physics Letters A. 383 (2019) 2110–2113.
[3] K. Jaya Bala, A. John Peter, C. W. Lee, Interband and intersubband optical transition energies in a G I N/GaN quantum dot, Optik. 183 (2019) 1106–1113.
[4] Y. Naimi, A.R. Jafari, Oscillator strengths of the intersubband electronic transitions in the multi-layered nano-antidots with hydrogenic impurity, J. Comput. Electron. 11(2012) 414-420.
[ 5] L. Su, B. Liang, Y. Wang, Q. Yuan, Q. Guo, S. Wang, G. Fu, D.L. Huffaker, Y.I. Mazur, M.E. Ware, Y. Maidaniuk, G.J. Salamo, Abnormal photoluminescence for GaAs/A G As quantum dot-ring hybrid nanostructure grown by droplet epitaxy, Journal of Luminescence. 195 (2018) 187–192.
[6] K.A. Rodríguez-Magdaleno, R. Pérez-Álvarez, J.C. Martínez-Orozco, Intra-miniband absorption coefficient in core/shell spherical quantum dot, Journal of Alloys and Compounds. 736 (2018) 211–215.
[7] H. Ghaforyan, M. Ebrahimzadeh, T. Ghaffary, H. Rezazadeh, ZS. Jahromi, Microwave absorbing properties of Ni nanowires grown in nanoporous anodic alumina templates, Chinese Journal of Physics 52 (1), 233-238.
[8] F.K. Boz, B. Nisanci, S. Aktas, S.E. Okan, Energy levels of spherical quantum dot with an impurity, Applied Surface Science. 387 (2016) 76–81.
[9] E. Sadeghi, G. Rezaie, Effect of magnetic field on the impurity binding energy of the excited states in spherical quantum dot, Pramana. 75 (2010) 749–755,.
[10] V. Pavlovi, M. Susnjar, K. Petrovi, L. Stevanovi, Electromagnetically induced transparency in a multilayered spherical quantum dot with hydrogenic impurity, Optical Materials. 78 (2018) 191-200.
[11] S. M. Bilankohi, M. Ebrahimzadeh, T. Ghaffary, Study of the properties of Au/Ag core/shell nanoparticles and its application, Indian Journal of Science and Technology. 8 (2015) 31-33.
[12] Y. Naimi, A.R. Jafari, Optical properties of quantum dots versus quantum antidots: Effects of hydrostatic pressure and temperature, Journal of Computational Electronics. 13 (2014) 666-672.
[13] T. Ghaffary, M. Ebrahimzadeh, MM. Gharahbeigi, L. Shahmandi, Fabrication of iron nanowire arrays using nanoporous anodic alumina template, Asian Journal of Chemistry 24 (7), 3237.
[14] A.R. Jafari, Y. Naimi, Linear and nonlinear optical properties of multi-layered spherical nano-systems with donor impurity in the center, J. Comput. Electron. 12 (2013) 36-42.
[15] G.V.B. de Souza, A. Bruno-Alfonso, Finite-difference calculation of donor energy levels in a spherical quantum dot subject to a magnetic field, Physica E. 66 (2015) 128–132.
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