DL Sales scite author profile

DL Sales

5Publications

40Citation Statements Received

69Citation Statements Given

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University of Cádiz

Publications

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Determination of the strain generated in InAs/InP quantum wires: prediction of nucleation sites

et al. 2006

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The compositional distribution in a self-assembled InAs(P) quantum wire grown by molecular beam epitaxy on an InP(001) substrate has been determined by electron energy loss spectrum imaging. We have determined the strain and stress fields generated in and around this wire capped with a 5 nm InP layer by finite element calculations using as input the compositional map experimentally obtained. Preferential sites for nucleation of wires grown on the surface of this InP capping layer are predicted, based on chemical potential minimization, from the determined strain and stress fields on this surface. The determined preferential sites for wire nucleation agree with their experimentally measured locations. The method used in this paper, which combines electron energy loss spectroscopy, high-resolution Z contrast imaging, and elastic theory finite element calculations, is believed to be a valuable technique of wide applicability for predicting the preferential nucleation sites of epitaxial self-assembled nano-objects.

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Excitons in coupledInAs∕InPself-assembled quantum wires

et al. 2007

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Optical transitions in coupled InAs/ InP self-assembled quantum wires are studied within the single-band effective-mass approximation including effects due to strain. Both vertically and horizontally coupled quantum wires are investigated and the ground state, excited states, and the photoluminescence peak energies are calculated. Where possible, we compare with available photoluminescence data from which it was possible to determine the height of the quantum wires. An anticrossing of the energy of excited states is found for vertically coupled wires signaling a change of symmetry of the exciton wave function. This crossing is the signature of two different coupling regimes.

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Growth of Low-Density Vertical Quantum Dot Molecules with Control in Energy Emission

et al. 2010

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In this work, we present results on the formation of vertical molecule structures formed by two vertically aligned InAs quantum dots (QD) in which a deliberate control of energy emission is achieved. The emission energy of the first layer of QD forming the molecule can be tuned by the deposition of controlled amounts of InAs at a nanohole template formed by GaAs droplet epitaxy. The QD of the second layer are formed directly on top of the buried ones by a strain-driven process. In this way, either symmetric or asymmetric vertically coupled structures can be obtained. As a characteristic when using a droplet epitaxy patterning process, the density of quantum dot molecules finally obtained is low enough (2 × 108 cm−2) to permit their integration as active elements in advanced photonic devices where spectroscopic studies at the single nanostructure level are required.

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Experimental and Simulated Strain Field Maps in Stacked Quantum Wires

et al. 2008

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Determination of the Strain Field in Nano-Objects from Aberration-Corrected Z-contrast Images

Molina

Varela

Sales

et al. 2007

MAM

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DL Sales

Determination of the strain generated in InAs/InP quantum wires: prediction of nucleation sites

Excitons in coupledInAs∕InPself-assembled quantum wires

Growth of Low-Density Vertical Quantum Dot Molecules with Control in Energy Emission

Experimental and Simulated Strain Field Maps in Stacked Quantum Wires

Determination of the Strain Field in Nano-Objects from Aberration-Corrected Z-contrast Images

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