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W2061297481 abstract "Using the finite-difference method within the quasi-one-dimensional effective potential model and effective mass approximation, the ground-state binding energy of hydrogenic shallow-donor impurity in wurtzite (WZ) (In,Ga)N/GaN parabolic transversal-section quantum-well wires (PQWWs) subjected to external electric field is investigated. An effective radius of a cylindrical QWW describing the strength of the lateral confinement is introduced. The results show that (i) the position of the largest electron probability density in x–y plane is located at a point and it is pushed along the negative sense by the electric field directed along the positive sense, (ii) the ground-state binding energy is largest for the impurity located at this point and starts to decrease when the impurity is away from this point, (iii) the ground-state binding energy decreases with increase in the external electric field and effective radius, and (iv) the Stark-shift increases with the increase of the external electric field and the effective radius." @default.
W2061297481 created "2016-06-24" @default.
W2061297481 creator A5052776732 @default.
W2061297481 creator A5059149761 @default.
W2061297481 creator A5060194557 @default.
W2061297481 date "2013-03-01" @default.
W2061297481 modified "2023-09-29" @default.
W2061297481 title "Stark effect-dependent of ground-state donor binding energy in InGaN/GaN parabolic QWW" @default.
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W2061297481 doi "https://doi.org/10.1016/j.physb.2012.12.009" @default.
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