Hydrostatic Pressure Effect on the Thermodynamic Properties of Quantum Wire Under a Crossed Electromagnetic Field

被引:0
作者
Pranay Khosla
Sakshi Arora
Yash Gupta
Rinku Priyanka
机构
[1] Delhi Technological University,Department of Applied Physics
来源
Journal of Low Temperature Physics | 2023年 / 213卷
关键词
Hydrostatic pressure; Quantum wire; Rashba effect; Thermodynamic properties;
D O I
暂无
中图分类号
学科分类号
摘要
In this paper, a GaAs quantum wire is considered with a semi-parabolic lateral confinement potential in the presence of a crossed electromagnetic field with the inclusion of Rashba SOI. The effects of pressure on thermodynamic properties have been studied. To this end, first, the eigenenergies for the system have been calculated considering Rashba spin effects under electric and magnetic fields. Then a numerical analysis is done to derive the partition function and obtain the system's thermodynamic properties. The results show that at low temperatures, all four thermodynamic properties don’t show much effect due to pressure. It is found that entropy increases with increasing hydrostatic pressure, whereas pressure affects mean energy and free energy in a different manner. A peak structure is observed in specific heat as a function of temperature where the peak position depends on hydrostatic pressure.
引用
收藏
页码:92 / 106
页数:14
相关论文
共 112 条
[11]  
Yan H(2005)LO-phonon-induced screening of electron–electron interaction in D-centres and quantum dots J. Phys.: Condens. Matter 15 261-4271
[12]  
Martinez-Gil A(2002)Modelling of confinement potentials in quantum dots Physica E 245 101-586
[13]  
Rota A(2008)Investigation of D-centers confined by spherical quantum dots Physica Status Solidi (b). 37 4261-R1961
[14]  
Maroutian T(2002)Review synthesis of conducting nanowires J. Mater. Sci. 2 1109-1235
[15]  
Bartenlian B(1960)Properties of semiconductors with an extremum loop. I. Cyclotron and combinational resonance in a magnetic field perpendicular to the plane of the loop Soviet Phys. Solid State. 100 580-514
[16]  
Beauvillain P(1955)Spin-orbit coupling effects in zinc blende structures Phys. Rev. 55 R1958-555
[17]  
Moyen E(1997)Experimental and theoretical approach to spin splitting in modulation-dopedInxGa1−xAs/InP quantum wells for B→0 Phys. Rev. B 69 1232-207
[18]  
Hanbücken M(2002)Rashba spin-orbit coupling probed by the weak antilocalization analysis inInAlAs/InGaAs/InAlAs quantum wells as a function of quantum well asymmetry Phys. Rev. Lett. 449 510-18
[19]  
Fernandes Cauduro AL(1992)First-principles calculations of the electronic properties of silicon quantum wires Phys. Rev. Lett. 75 552-124
[20]  
Hess LH(2018)Simultaneous effects of electron–electron interactions, Rashba spin-orbit interaction and magnetic field on susceptibility of quantum dots J. Magn. Magn. Mater. 118 113918-39
12345678910