Coupled Quantum Dots
Mostrando 13-20 de 20 artigos, teses e dissertações.
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13. ELECTRONIC CORRELATION IN QUANTUM DOTS SYSTEMS / CORRELAÇÃO ELETRÔNICA EM SISTEMAS DE PONTOS QUÂNTICOS
In this thesis we investigate the effects of the eletron- eletron interaction on the transport properties of nanosystems. In particular, we study systems constituted by two quantum dots conected to leads, in different topologies. Our main interest is to study the effects of the Kondo regime and the electronic phase on the conductance. In the configuration wh
Publicado em: 2004
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14. Espectroscopia de tunelamento em sistemas nanoscopicos de transporte balistico
In this work we discuss the ballistic transport properties of non-interacting electrons in confined nanoscopic system, where the sample boundaries and a controllable impurity repulsive, such as the one induced by scanning a Atomic Force Microscope tip or using split gates technique are the only source of electron sacttering. Two quantum scenary are studied:
Publicado em: 2003
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15. Anomalous blueshift in vertically coupled InAs/GaAs quantum dots using InGaAs strain-reducing layers
The vertical coupling of InAs quantum dots and their capping with In0. 1Ga0. 9As layers were investigated in order to shift the optical emission of the structures toward longer wavelengths. We observed that both ways can not be used simultaneously by just replacing part of the usual GaAs spacer layer by In0. 1Ga0. 9As because the intermixing of Ga and In ato
Brazilian Journal of Physics. Publicado em: 2002-06
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16. Effect of the lead dimensionality over transport properties in quantum dots
We theoretically investigate the effect of the lead dimensionality on the non-equilibrium electron transport through quantum dots. More precisely, we study nonlinear transport in a quantum dot coupled to leads of diverse dimensionality. We show that the presence of the latter strongly determines the resulting transport properties. Differently from higher dim
Brazilian Journal of Physics. Publicado em: 2002-06
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17. Heteroestruturas de semicondutores na presença de campos AC intensos
The study of coupling of the electronic structure of a semiconductor heterostructure with strong AC fields, is the main purpose of the present work. The interaction of the electronic structure of a heterostructure with an AC field of determined frequency is given by a time-independent Hamiltonian which replaces a semiclassic time- dependent Hamiltonian. The
Publicado em: 1998
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18. Neurexin/Neuroligin Interaction Kinetics Characterized by Counting Single Cell-Surface Attached Quantum Dots
We report what to our knowledge is a new method to characterize kinetic rates between cell-surface-attached adhesion molecules. Cells expressing specific membrane receptors are surface-labeled with quantum dots coated with their respective ligands. The progressive diminution in the total number of surface-diffusing quantum dots tracked over time collectively
The Biophysical Society.
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19. Quantitative Determination of Skin Penetration of PEG-Coated CdSe Quantum Dots in Dermabraded but not Intact SKH-1 Hairless Mouse Skin
Many cosmetics, sunscreens, and other consumer products are reported to contain nanoscale materials. The possible transdermal absorption of nanoscale materials and the long-term consequences of the absorption have not been determined. We used polyethylene glycol coated cadmium selenide (CdSe) core quantum dots (QD; 37 nm diameter) to evaluate the penetration
Oxford University Press.
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20. An oligonucleotide microarray for microRNA expression analysis based on labeling RNA with quantum dot and nanogold probe
MicroRNAs (miRNAs) play important regulatory roles in animals and plants by targeting mRNAs for cleavage or translational repression. They have diverse expression patterns and might regulate various developmental and physiological processes. Profiling miRNA expression is very helpful for studying biological functions of miRNAs. We report a novel miRNA profil
Oxford University Press.