2022
DOI: 10.1002/pssb.202200059
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Self‐Polarization of Hydrogenic Impurity in Quantum Wells Made of Different Materials

Abstract: The effect of the external electric field on the ground state binding energy and self‐polarization of a hydrogenic donor impurity in quantum wells (QWs) made of different materials is calculated within the effective mass approximation using a variational scheme. The variations of binding energy and self‐polarization depending on well width, electric field, and impurity position have been studied in detail. For each QW made of different materials, it has been observed that the binding energy decreases with the … Show more

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Cited by 5 publications
(7 citation statements)
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“…EgΓ(x)$\cdot E_{\text{g}}^{\Gamma} \left(\right. x \left.\right)$ is the bandgap of heterostructure at the Γ point and, for four different structures, is defined as follows [ 20,48 ] ΔEgΓ(x)={leftleft1.424 +1.247x1emfor1emGaAsfalse/Ga1xAlx Asleft0.36+1.064x1emfor1emInAsfalse/In1xGaxAsleft0.360+2.012x+0.698x21emfor1emInAsfalse/In1xAlxAsleft1.351+0.643x+0.786x21emfor1emInPfalse/In1xGaxnormalP$$\Delta E_{\text{g}}^{\Gamma} \left(\right. x \left.\right) = \left{\right.…”
Section: Theorymentioning
confidence: 99%
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“…EgΓ(x)$\cdot E_{\text{g}}^{\Gamma} \left(\right. x \left.\right)$ is the bandgap of heterostructure at the Γ point and, for four different structures, is defined as follows [ 20,48 ] ΔEgΓ(x)={leftleft1.424 +1.247x1emfor1emGaAsfalse/Ga1xAlx Asleft0.36+1.064x1emfor1emInAsfalse/In1xGaxAsleft0.360+2.012x+0.698x21emfor1emInAsfalse/In1xAlxAsleft1.351+0.643x+0.786x21emfor1emInPfalse/In1xGaxnormalP$$\Delta E_{\text{g}}^{\Gamma} \left(\right. x \left.\right) = \left{\right.…”
Section: Theorymentioning
confidence: 99%
“…The conduction band offset parameters are taken as Qc=0.6$Q_{\text{c}} = 0.6$ for QD1 and QD2, Qc=0.5$Q_{\text{c}} = 0.5$ for QD3, and Qc=0.3$Q_{\text{c}} = 0.3$ for QD4 and x = 0.35 is fixed for four different structures. [ 20,49–53 ]…”
Section: Theorymentioning
confidence: 99%
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