We inspected the exact solution of double barrier quantum well. The choice of proper boundary conditions has been taken into account. We eveluated the mechanism of resonant in this device. The density correlation matrix was calculated by using the exact solution of the time-dependent generalized nonlinear Schrodinger equation in the presence of electron-electron interaction. The result shows that there is no correlation dependence among the electrons at the equilibrium between contact regions. After biasing, we have calculated the density correlation matrix in the transient and steady state. The results of our calculations show the oscillatory plasmon current in the state of transient, while in the steaby state the correlation among the phase of electrons observed to be oscillatory in the whole region of the device.
A. H. Rezvani, and M. A. Talebian Darzi, (2020). Simulation of non-equilibrium many body electrons in RTD. Iranian Journal of Physics Research, 2(5), 247-258.
MLA
A. H. Rezvani, , and M. A. Talebian Darzi, . "Simulation of non-equilibrium many body electrons in RTD", Iranian Journal of Physics Research, 2, 5, 2020, 247-258.
HARVARD
A. H. Rezvani , M. A. Talebian Darzi (2020). 'Simulation of non-equilibrium many body electrons in RTD', Iranian Journal of Physics Research, 2(5), pp. 247-258.
CHICAGO
A. H. Rezvani and M. A. Talebian Darzi, "Simulation of non-equilibrium many body electrons in RTD," Iranian Journal of Physics Research, 2 5 (2020): 247-258,
VANCOUVER
A. H. Rezvani , M. A. Talebian Darzi Simulation of non-equilibrium many body electrons in RTD. Dear user; Recently we have changed our software to Sinaweb. If you had already registered with the old site, you may use the same USERNAME but you need to change your password. To do so at the first use, please choose, 2020; 2(5): 247-258.
