A theoretical study of the optical Stark effect in InGaAs/InAlAs quantum dots

Thao, Dinh Nhu; Bao, Le Thi Ngoc; Phuoc, Duong Dinh; Quang, Nguyễn Hồng

doi:10.1088/1361-6641/32/2/025014

Cited by 15 publications

(25 citation statements)

References 39 publications

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“…This reduction is the consequence of the conservation of the electronic transition rate as discussed in Ref. [11]. In short, the above results demonstrate the existence of the threelevel optical Stark effect of exciton in the prolate ellipsoidal quantum dots.…”

Section: Resultssupporting

confidence: 71%

“…Quantum dot structures have many interesting applications, such as producing artificial atoms and molecules [5], single-electron transistors [6], and quantum dot lasers [7]. In recent years, there has seen many studies on optical properties in quantum dots with different shapes, for example, cylindrical, cubic, and spherical quantum dots [8][9][10][11][12]. These studies show that optical properties of quantum dots are highly dependent on external fields and size of quantum dots.…”

Section: Introductionmentioning

confidence: 99%

“…In general, optical Stark effect has potential applications in manufacturing ultrafast optical switching of future optical devices [11,18], optical modulators [19], mesoporous hybrid multifunctional system [20], and optically controlled field-effect transistors [21]. The optical Stark effect of excitons in quantum dots has also been of interest in both experimental and theoretical research [11,[22][23][24] but mainly for spherical quantum dots. The investigation of this effect in a more complicated and more practical shaped quantum dot structures, such as ellipsoidal quantum dots, has not been carried out in detail.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

On the Optical Stark Effect of Excitons in InGaAs Prolate Ellipsoidal Quantum Dots

Bao

Phuoc

Hien

et al. 2021

Journal of Nanomaterials

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In this paper, we study the exciton absorption spectra in InGaAs prolate ellipsoidal quantum dots when a strong pump laser resonant with electron quantized levels is active. Our obtained results by renormalized wavefunction theory show that, under suitable conditions, the initial exciton absorption peak is split into two new peaks as the evidence of the existence of the three-level optical Stark effect of excitons. We have suggested an explanation of the origin of the effect as well as investigating the effect of pump field energy, size, and geometric shape of the quantum dots on effect characteristics. The comparison with the results obtained in the spherical quantum dots implies the important role of geometric shape of the quantum structures when we examine this effect.

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Section: Resultssupporting

confidence: 71%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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On the Optical Stark Effect of Excitons in InGaAs Prolate Ellipsoidal Quantum Dots

Bao

Phuoc

Hien

et al. 2021

Journal of Nanomaterials

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“…As a result, we see that the absorption spectra of the excitons shift to a lower energy region as the wire radius becomes larger. It is worth mentioning that we have applied our theory for the other low-dimensional structures such as quantum dots and quantum wells and we have obtained the similar results [55,56]. Journal of Nanomaterials…”

Section: Journal Of Nanomaterialssupporting

confidence: 56%

“…We also found that, in Figure 2, the intensity of the exciton absorption spectra in the case of without pump wave (dashed line) appears much higher than that in the presence of the pump wave (solid line). This reduction is due to the act of the conservation of the transition rate [55]. We realize that, by turning the pump laser on or off, this effect can control the system to work as an optical switching by letting the probe laser beam of certain frequency propagate through it or not.…”

Section: Resultsmentioning

confidence: 99%

Three-Level Optical Stark Effect of Excitons in GaAs Cylindrical Quantum Wires

Thao

Phuoc

Bao

et al. 2021

Journal of Nanomaterials

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This study looks at the three-level optical Stark effect of excitons in GaAs cylindrical quantum wires, utilizing the renormalized wave function theory. By applying the three-level model consisting of the first two electron levels connected via a powerful pump laser and the first hole level, we observe the appearance of the excitonic optical Stark effect through the appearance of two separated peaks in the exciton absorption spectra. In addition, the strong impact of the pump laser detuning and the wire radius on the optical Stark effect are also put under thorough examination. Finally, a brief guidance for experimental verification is also suggested.

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Energy states, oscillator strengths and polarizabilities of many electron atoms confined by an impenetrable spherical cavity

Yakar

Çakır

Demir

et al. 2021

Int J of Quantum Chemistry

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We have calculated the ground and excited state energies and the orbital energies of three-electron atoms inside impenetrable spherical cavity. Energy eigenvalues and wavefunctions are calculated from the variational approximation method which is a combination of quantum genetic algorithm procedure and Hartree-Fock Roothaan method. In addition, the important parameters such as static and dynamic polarizability, oscillator strength and pressure have been investigated as perturbative. The results reveal that cavity radius and impurity charge have played an important role on the polarizability, the oscillator strength and pressure of the system. In addition, it is seen that when cavity radius is extremely large, all energies and the other physical parameters approach the values of a free space atom. As the dot radius decreases, the polarizability of system decreases due to the strong spatial confinement, but the pressure exerting on the system as the cavity radius R is shrunk increases. In addition, as the impurity charge increases, the oscillator strength decreases.

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A theoretical study of the optical Stark effect in InGaAs/InAlAs quantum dots

Cited by 15 publications

References 39 publications

On the Optical Stark Effect of Excitons in InGaAs Prolate Ellipsoidal Quantum Dots

On the Optical Stark Effect of Excitons in InGaAs Prolate Ellipsoidal Quantum Dots

Three-Level Optical Stark Effect of Excitons in GaAs Cylindrical Quantum Wires

Energy states, oscillator strengths and polarizabilities of many electron atoms confined by an impenetrable spherical cavity

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