论文信息 - Refractive index changes of a donor impurity in spherical nanostructures: Effects of hydrostatic pressure and temperature - 字舞流文

Refractive index changes of a donor impurity in spherical nanostructures: Effects of hydrostatic pressure and temperature

[1] A. Zamani,et al. Linear and nonlinear optical absorption coefficients and refractive index changes of a spherical quantum dot placed at the center of a cylindrical nano-wire: Effects of hydrostatic pressure and temperature , 2013 .

[2] I. Erdoǧan,et al. Simultaneous effects of temperature, hydrostatic pressure and electric field on the self-polarization and electric field polarization in a GaAs/Ga0.7Al0.3As spherical quantum dot with a donor impurity , 2013 .

[3] V. Gayathri,et al. Hydrostatic pressure and temperature dependence of dielectric mismatch effect on the impurity binding energy in a spherical quantum dot , 2013 .

[4] A. Jafari,et al. Linear and nonlinear optical properties of multi-layered spherical nano-systems with donor impurity in the center , 2013, 1301.2818.

[5] G. Rezaei,et al. Linear and nonlinear optical properties of a hydrogenic impurity confined in a two-dimensional quantum dot: Effects of hydrostatic pressure, external electric and magnetic fields , 2013 .

[6] A. Jafari,et al. Oscillator strengths of the intersubband electronic transitions in the multi-layered nano-antidots with hydrogenic impurity , 2012, 1301.2810.

[7] M. Moradi,et al. Hydrostatic pressure and temperature effects on the electronic energy levels of a spherical quantum dot placed at the center of a nano-wire , 2012 .

[8] W. Xie. Electron Raman scattering of a two-dimensional pseudodot system , 2012 .

[9] S. F. Taghizadeh,et al. External electric field, hydrostatic pressure and temperature effects on the binding energy of an off-center hydrogenic impurity confined in a spherical Gaussian quantum dot , 2012 .

[10] G. Rezaei,et al. Magnetic field effects on the linear and nonlinear optical properties of coaxial cylindrical quantum well wires , 2012 .

[11] M. Vahdani,et al. Oscillator strengths of the intersubband electronic transitions in the hydrogenic nano-antidots , 2012 .

[12] S. Minez,et al. The hydrostatic pressure and electric field effects on the normalized binding energy of hydrogenic impurity in a GaAs/AlAs spherical quantum dot , 2011 .

[13] Xiaofen Li,et al. Photoionization and binding energy of a donor impurity in a quantum dot under an electric field: Effects of the hydrostatic pressure and temperature , 2011 .

[14] W. Xie,et al. Effects of the hydrostatic pressure and temperature on optical properties of a hydrogenic impurity in the disc-shaped quantum dot , 2011 .

[15] R. Khordad. Temperature effect on the threshold frequency of absorption in a quantum pseudodot , 2011 .

[16] K. Guo,et al. Nonlinear optical absorption coefficients and refractive index changes in a two-dimensional system , 2010 .

[17] S. Elagoz,et al. The effects of pressure and barrier height on donor binding energy in GaAs/Ga1−xAlxAs cylindrical quantum well wires , 2010 .

[18] V. A. Holovatsky,et al. Oscillator strengths of electron quantum transitions in spherical nano-systems with donor impurity in the center , 2009 .

[19] E. Sadeghi. Impurity binding energy of excited states in spherical quantum dot , 2009 .

[20] E. Kasapoglu. The hydrostatic pressure and temperature effects on donor impurities in GaAs/Ga1 − xAlxAs double quantum well under the external fields , 2008 .

[21] R. Franco,et al. Impurity states in a spherical GaAs-Ga1-x AlxAs quantum dots: Effects of hydrostatic pressure , 2008, Microelectron. J..

[22] A. Peter,et al. Simultaneous effects of pressure and temperature on donors in a GaAlAs/GaAs quantum well , 2008 .

[23] I. Karabulut,et al. Linear and nonlinear intersubband optical absorption coefficients and refractive index changes in a quantum box with finite confining potential , 2006 .

[24] Luiz E. Oliveira,et al. Effects of hydrostatic pressure and applied electric fields on the exciton states in GaAs–(Ga,Al)AsGaAs–(Ga,Al)As quantum wells , 2005 .

[25] A. Peter. The effect of hydrostatic pressure on binding energy of impurity states in spherical quantum dots , 2005 .

[26] C. Duque,et al. Effects of hydrostatic pressure on donor states in symmetrical GaAs–Ga0.7Al0.3As double quantum wells , 2005 .

[27] Y. P. Varshni. Accurate wavefunctions for hydrogenic donors in GaAs(Ga,Al)As quantum dots , 1999 .

[28] M. Ohring,et al. Band offset determination in analog graded parabolic and triangular quantum wells of GaAs/AlGaAs and GaInAs/AlInAs , 1992 .

[29] G. Samara. Temperature and pressure dependences of the dielectric constants of semiconductors , 1983 .

[30] D. E. Aspnes,et al. GaAs lower conduction-band minima: Ordering and properties , 1976 .

[31] M. Cardona,et al. Dependence of the direct energy gap of GaAs on hydrostatic pressure , 1975 .

[32] H. Ehrenreich. Band Structure and Transport Properties of Some 3–5 Compounds , 1961 .