Your search keyword '"Patrícia Lustoza Souza"' showing total 2 results

1. Probing microcavity switching events on the picosecond time scale using quantum dots as a broadband internal fluorescent source

Author

Tobias Sattler, Guilherme Monteiro Torelly, Emanuel Peinke, Arthur Gérard, Julien Claudon, Joël Bleuse, Patricia Lustoza Souza, and Jean-Michel Gérard

Subjects

Applied optics. Photonics, TA1501-1820

Abstract

We report on ultrafast all-optical switching experiments performed on pillar microcavities containing a collection of quantum dots (QDs). Using QDs as a broadband internal light source and a detection setup based on a streak camera, we track in parallel the frequencies of a large set (>10) of resonant modes of an isolated micropillar during the entire duration of switching events and with a 2 ps temporal resolution. Being much faster and more convenient than standard approaches based on pump–probe spectroscopy, this method is very well suited for in-depth studies of cavity switching, noticeably in view of applications in the field of quantum photonics. We report as a first demonstrative example an investigation of the switch-on time constant τon dependence as a function of the pump power and the observation of a remarkably low value of τon(≈1.5 ps) for optimized pumping conditions. As a second illustration, we report the observation of a transient lifting of the degeneracy of a polarization-degenerate cavity mode, induced by a non-centrosymmetric injection of free carriers.

Published

2020

2. Observation of partial relaxation mechanisms via anisotropic strain relief on epitaxial islands using semiconductor nanomembranes.

Author

Barbara L T Rosa, Lucas A B Marçal, Rodrigo Ribeiro Andrade, Luciana Dornellas Pinto, Wagner N Rodrigues, Patrícia Lustoza Souza, Mauricio Pamplona Pires, Ricardo Wagner Nunes, and Angelo Malachias

Subjects

STRAINS & stresses (Mechanics), EPITAXY, SEMICONDUCTORS

Abstract

In this work we attempt to directly observe anisotropic partial relaxation of epitaxial InAs islands using transmission electron microscopy (TEM) and synchrotron x-ray diffraction on a 15 nm thick InAs:GaAs nanomembrane. We show that under such conditions TEM provides improved real-space statistics, allowing the observation of partial relaxation processes that were not previously detected by other techniques or by usual TEM cross section images. Besides the fully coherent and fully relaxed islands that are known to exist above previously established critical thickness, we prove the existence of partially relaxed islands, where incomplete 60° half-loop misfit dislocations lead to a lattice relaxation along one of the 〈110〉 directions, keeping a strained lattice in the perpendicular direction. Although individual defects cannot be directly observed, their implications to the resulting island registry are identified and discussed within the frame of half-loops propagations. [ABSTRACT FROM AUTHOR]

Published

2017