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Philosophical Magazine Volume 102, 2022 - Issue 19
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Part B: Condensed Matter Physics

Ground and two low-lying excited states binding energy in (Al,Ga)N/AlN double quantum wells: temperature and electric field effects

Walid Belaida Faculty of Science, Department of Physics, Mohammed Ben Abdellah University, Fes, Morocco;b Faculty of Sciences, Department of Physics, Selcuk University, Konya, TurkeyCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0001-9810-9386
ORCID Icon,
Haddou El Ghazia Faculty of Science, Department of Physics, Mohammed Ben Abdellah University, Fes, Morocco;c Department of Physics, ENSAM, Hassan II University, Casablanca, Morocco
,
Mohamed A. Basyoonid Faculty of Sciences, Department of Nanotechnology and Advanced Materials, Selcuk University, Konya, Turkey
,
Izeddine Zorkania Faculty of Science, Department of Physics, Mohammed Ben Abdellah University, Fes, Morocco
&
Anouar Jorioa Faculty of Science, Department of Physics, Mohammed Ben Abdellah University, Fes, Morocco
Pages 1989-2001 | Received 28 Feb 2022, Accepted 24 Jun 2022, Published online: 24 Jul 2022
 
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ABSTRACT

In this study, using a numerical method within the effective mass approximation, we theoretically investigated the effects of temperature and electric field on the binding energy of an on-centre hydrogenic impurity in (Al,Ga)N/AlN double quantum wells. For rectangular, parabolic, and triangular finite potential confinements, the ground and the two lowest excited states binding energies are investigated. Regardless of the shape, our findings show that the size, temperature, and applied electric field induce huge impacts on the binding energy. It reveals that the binding energy (1) is higher in rectangular shape than for other forms, (2) is reduced as the temperature and/or electric field are increased, and (3) is less sensitive to temperature and applied electric field in rectangular confinement compared to other profiles. The results we obtained are very consistent with the literature findings.

Disclosure statement

No potential conflict of interest was reported by the author.

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