Heat capacity and entropy of a GaAs quantum dot with Gaussian confinement

Boyacıoğlu, Bahadır; Chatterjee, Ashok

doi:10.1063/1.4759350

Cited by 97 publications

(30 citation statements)

References 28 publications

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“…There have been several investigations in the past few years on the thermodynamic properties of quantum dots, because of their vast potential for future technological applications [7,10,11]. Liao [11] found the numerical results for the energy levels and heat capacity in the presence of static electric field and quantum confinement.…”

Section: Introductionmentioning

confidence: 99%

“…De Groote et al [7] calculated the magnetization, susceptibility, and specific heat of helium-like quantum dots. Boyacioglu and Chatterjee [10] studied the specific heat and entropy of GaAs quantum dot with Gaussian confinement in the presence of the spin Zeeman effect. They observed a Schottky-like anomaly in heat capacity at low temperature while it approaches a saturation value of 2k B with increasing temperature.…”

Section: Introductionmentioning

confidence: 99%

“…Quantum dots can be thought of as artificial atoms where nuclear potential is replaced by confining potential [4,5]. Magneto-optical experiments together with the generalized Kohn theorem suggest that this confining potential would be more or less parabolic in nature [6][7][8], although quantum dots have also been modelled using other confining potentials, such as the finite potential well and Gaussian potential [9][10][11][12][13][14][15].…”

Section: Introductionmentioning

confidence: 99%

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Thermal and magnetic properties of cylindrical quantum dot with asymmetric confinement

et al. 2015

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We studied the thermal and magnetic properties of a cylindrical quantum dot in the presence of external electric and magnetic fields. The energy spectrum and wave functions for the quantum dot of asymmetric confinement are obtained by solving the Schrödinger wave equation analytically. The energy levels are employed to calculate the canonical partition function, which in turn is used to obtain specific heat, entropy, magnetization, and susceptibility. These thermal and magnetic quantities are found to have direct dependence on confinement length, magnetic field, and temperature, thus the parameters of the system can be tuned to fit into more than one application. PACS Nos.: 78.40.Fy, 75.75.-c, 68.65.Hb. Résumé : Nous étudions ici les propriétés thermiques et magnétiques de points quantiques cylindriques en présence de champs électriques et magnétiques externes. Nous solutionnons analytiquement l'équation de Schrödinger pour le spectre en énergie et les fonctions d'ondes de ce point quantique de confinement asymétrique. Les énergies propres permettent de calculer la fonction de partition canonique qui nous donne la capacité calorifique, l'entropie, la magnétisation et la susceptibilité. Nous trouvons que ces quantités thermiques et magnétiques dépendent directement de la longueur de confinement, du champ magnétique et de la température et qu'ainsi les paramètres du système peuvent être accordés pour satisfaire plus d'une application. [Traduit par la Rédaction]

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Thermal and magnetic properties of cylindrical quantum dot with asymmetric confinement

et al. 2015

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“…[20], the authors had used the SFA (static fluctuation approximation) to study the thermodynamic properties of two dimensional GaAs/AlGaAs parabolic QD in a magnetic field. Boyacioglu and Chatterjee [21] had studied the magnetic properties of a single quantum dot confined with a Gaussian potential model. They observed that the magnetization curve shows peaks structure at low temperature.…”

Section: Introductionmentioning

confidence: 99%

Magnetization of GaAs Parabolic Quantum Dot by Variation Method

Shaer¹,

Elsaid²,

El-Hasan³

2016

JPSA

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Abstract:The magnetization of two interacting electrons confined in a quantum dot presented in a magnetic field had been calculated by solving the relative Hamiltonian using variational method. We had investigated the dependence of the magnetization on temperature, magnetic field strength and confining frequency. The singlet-triplet transitions in the ground state of the quantum dot spectra and the corresponding jumps in the magnetization curves had been shown. The comparisons show that our results are in very good agreement with reported works.

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“…[20], the authors used the static fluctuation approximation (SFA) to study the thermodynamic properties of two-dimensional GaAs/AlGaAs parabolic QD in a magnetic field. Boyacioglu and Chatterjee [21] studied the magnetic properties of a single quantum dot confined with a Gaussian potential model. They observed that the magnetization curve shows peaks structure at low temperature.…”

Section: Introductionmentioning

confidence: 99%

Magnetic Susceptibility of Coupled Double GaAs Quantum Dot in Magnetic Fields

Elsaid

Hijaz

2017

Acta Phys. Pol. A

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We calculate the magnetic susceptibility of two interacting electrons confined in a coupled double quantum dot presented in a magnetic field by solving the relative Hamiltonian using the combined variational and exact diagonalization methods. We have investigated the dependence of the magnetic susceptibility on temperature, magnetic field strength, confining frequency, and barrier height. The singlet-triplet transitions in the ground state of the quantum dot spectra and the corresponding jumps in the magnetic susceptibility curves have been shown. The comparisons show that our results are in very good agreement with reported works.

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Heat capacity and entropy of a GaAs quantum dot with Gaussian confinement

Cited by 97 publications

References 28 publications

Thermal and magnetic properties of cylindrical quantum dot with asymmetric confinement

Thermal and magnetic properties of cylindrical quantum dot with asymmetric confinement

Magnetization of GaAs Parabolic Quantum Dot by Variation Method

Magnetic Susceptibility of Coupled Double GaAs Quantum Dot in Magnetic Fields

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