Pressure and temperature effects on magnetoelectric band energies in GaAs / InxGa1-xAs cylindrical quantum wires

BAşer, Pınar

doi:10.17776/csj.747296

Pressure and temperature effects on magnetoelectric band energies in GaAs / InxGa1-xAs cylindrical quantum wires

Pınar BAŞER (Sivas Cumhuriyet Üniversitesi, Fizik Bölümü, Sivas, Türkiye)

Cumhuriyet Science Journal

6 2

Yıl: 2020 Cilt: 41 Sayı: 3 Sayfa Aralığı: 699 - 705 Metin Dili: İngilizce DOI: 10.17776/csj.747296 İndeks Tarihi: 01-11-2021

Pressure and temperature effects on magnetoelectric band energies in GaAs / InxGa1-xAs cylindrical quantum wires

Öz:

Low-dimensional systems, consisting of GaAs / InGaAs heterostructures, have attractedconsiderable attention due to their many applications in optoelectronic and microelectronicdevices. In the present work, the electron and the heavy-hole ground state energy in anInGaAs/GaAs cylindrical quantum well wires (CQWWs) is investigated with the considerationof geometrical confinement. The ground state energy was calculated as a function ofhydrostatic pressure and temperature. Under the constant pressure and at a certain magneticfield value, while the ground state energy of the electron and the hole decreases depending onthe temperature, it is observed that the energy increases as the hydrostatic pressure increasesunder the constant temperature. These calculations are interpreted with graphics.

Anahtar Kelime:

Belge Türü: Makale Makale Türü: Araştırma Makalesi Erişim Türü: Erişime Açık

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APA	BAşer P (2020). Pressure and temperature effects on magnetoelectric band energies in GaAs / InxGa1-xAs cylindrical quantum wires. , 699 - 705. 10.17776/csj.747296
Chicago	BAşer Pınar Pressure and temperature effects on magnetoelectric band energies in GaAs / InxGa1-xAs cylindrical quantum wires. (2020): 699 - 705. 10.17776/csj.747296
MLA	BAşer Pınar Pressure and temperature effects on magnetoelectric band energies in GaAs / InxGa1-xAs cylindrical quantum wires. , 2020, ss.699 - 705. 10.17776/csj.747296
AMA	BAşer P Pressure and temperature effects on magnetoelectric band energies in GaAs / InxGa1-xAs cylindrical quantum wires. . 2020; 699 - 705. 10.17776/csj.747296
Vancouver	BAşer P Pressure and temperature effects on magnetoelectric band energies in GaAs / InxGa1-xAs cylindrical quantum wires. . 2020; 699 - 705. 10.17776/csj.747296
IEEE	BAşer P "Pressure and temperature effects on magnetoelectric band energies in GaAs / InxGa1-xAs cylindrical quantum wires." , ss.699 - 705, 2020. 10.17776/csj.747296
ISNAD	BAşer, Pınar. "Pressure and temperature effects on magnetoelectric band energies in GaAs / InxGa1-xAs cylindrical quantum wires". (2020), 699-705. https://doi.org/10.17776/csj.747296

APA	BAşer P (2020). Pressure and temperature effects on magnetoelectric band energies in GaAs / InxGa1-xAs cylindrical quantum wires. Cumhuriyet Science Journal, 41(3), 699 - 705. 10.17776/csj.747296
Chicago	BAşer Pınar Pressure and temperature effects on magnetoelectric band energies in GaAs / InxGa1-xAs cylindrical quantum wires. Cumhuriyet Science Journal 41, no.3 (2020): 699 - 705. 10.17776/csj.747296
MLA	BAşer Pınar Pressure and temperature effects on magnetoelectric band energies in GaAs / InxGa1-xAs cylindrical quantum wires. Cumhuriyet Science Journal, vol.41, no.3, 2020, ss.699 - 705. 10.17776/csj.747296
AMA	BAşer P Pressure and temperature effects on magnetoelectric band energies in GaAs / InxGa1-xAs cylindrical quantum wires. Cumhuriyet Science Journal. 2020; 41(3): 699 - 705. 10.17776/csj.747296
Vancouver	BAşer P Pressure and temperature effects on magnetoelectric band energies in GaAs / InxGa1-xAs cylindrical quantum wires. Cumhuriyet Science Journal. 2020; 41(3): 699 - 705. 10.17776/csj.747296
IEEE	BAşer P "Pressure and temperature effects on magnetoelectric band energies in GaAs / InxGa1-xAs cylindrical quantum wires." Cumhuriyet Science Journal, 41, ss.699 - 705, 2020. 10.17776/csj.747296
ISNAD	BAşer, Pınar. "Pressure and temperature effects on magnetoelectric band energies in GaAs / InxGa1-xAs cylindrical quantum wires". Cumhuriyet Science Journal 41/3 (2020), 699-705. https://doi.org/10.17776/csj.747296