1996
DOI: 10.1103/physrevb.54.11575
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Effective-mass theory for InAs/GaAs strained coupled quantum dots

Abstract: In the framework of effective-mass envelope-function theory, the optical transitions of InAs/GaAs strained coupled quantum dots grown on GaAs ͑100͒ oriented substrates are studied. At the ⌫ point, the electron and hole energy levels, the distribution of electron and hole wave functions along the growth and parallel directions, the optical transition-matrix elements, the exciton states, and absorption spectra are calculated. In calculations, the effects due to the different effective masses of electrons and hol… Show more

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Cited by 162 publications
(78 citation statements)
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“…Whereas in 0D QDs k i is replaced by the operator −i ∂ ∂r i (i = x, y, z) as a result of space confinement, the ground state has an effective finite wavevector which leads to finite R and S and thus δV HL = 0. Such 3D quantum confinement was previously considered as the only mechanism leading to HH-LH mixing in unstrained QDs 5,14,[20][21][22] . For flat GaAs QDs [where a z (height) ≪ L(wide)], 3D confinement within the Luttinger-Kohn Hamiltonian gives rise to λ LH ≃ 0.53a z /L 5 and λ 2 LH = 0.2%, a much smaller value than our determined 3.5%, for a disk-shaped dot with a z = 2 nm, L = 25 nm, as shown in Fig.…”
Section: Direct Hh-lh Coupling Effectsmentioning
confidence: 99%
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“…Whereas in 0D QDs k i is replaced by the operator −i ∂ ∂r i (i = x, y, z) as a result of space confinement, the ground state has an effective finite wavevector which leads to finite R and S and thus δV HL = 0. Such 3D quantum confinement was previously considered as the only mechanism leading to HH-LH mixing in unstrained QDs 5,14,[20][21][22] . For flat GaAs QDs [where a z (height) ≪ L(wide)], 3D confinement within the Luttinger-Kohn Hamiltonian gives rise to λ LH ≃ 0.53a z /L 5 and λ 2 LH = 0.2%, a much smaller value than our determined 3.5%, for a disk-shaped dot with a z = 2 nm, L = 25 nm, as shown in Fig.…”
Section: Direct Hh-lh Coupling Effectsmentioning
confidence: 99%
“…The most popular theoretical approach used in nanostructures is to fold the Luttinger-Kohn k · p or PikusBir strained Hamiltonian of bulk zinc-blende (ZB) semiconductors down to an effective 2 × 2 HH Hamiltonian and taking the admixture of neighboring bands such as LH band into account perturbatively [5][6][7][8][9]18 . In the early days of nanostructures research, the HH-LH mixing was depicted as a result of spatial quantum confinement 5,14,[20][21][22][23][24] , which leads to finite off-diagonal matrix elements within the Luttinger-Kohn k · p Hamiltonian. However, δV HL , and thus HH-LH mixing, was later recognized to be zero by the symmetry in symmetric self-assembled QDs which were assumed (incorrectly) to have the D 2d point group [11][12][13]19 .…”
Section: Introductionmentioning
confidence: 99%
“…[1][2][3][4][5][6][7][8][9][10][11][12][13][14] SAQDs are the result of a transition from 2D growth to 3D growth in strained epitaxial films such as Si x Ge 1Àx =Si and In x Ga 1Àx As/GaAs: This process is known as Stranski-Krastanow growth or VolmerWebber growth. 3,[15][16][17] In applications, order of SAQDs is a key factor.…”
Section: Introductionmentioning
confidence: 99%
“…We simulate a InAs pyramid structure, the width of the QD base is 12.4 nm and the height of the QD is 6.2 nm, for the constant effective mass model m* n =0.024m 0 , m* p,h =0.4m 0 [10] and (V in =0.0). This pyramid is embedded in a GaAs cuboid matrix with a size of (24.8×24.8×18.6) nm, for the constant effective mass model m* n =0.067m 0 , m* p,h =0.5m 0 and (V out =0.7).…”
Section: Simulation and Resultsmentioning
confidence: 99%