1999
DOI: 10.1063/1.125384
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Self-assembled ErAs islands in GaAs: Growth and subpicosecond carrier dynamics

Abstract: We report the growth of self-assembled ErAs islands embedded in GaAs by molecular beam epitaxy. The nucleation of ErAs on GaAs occurs in an island growth mode leading to spontaneous formation of nanometer-sized islands. Several layers of ErAs islands separated by GaAs can be stacked on top of each other to form a superlattice. X-ray diffraction shows superlattice fringes from such samples. Pump-probe measurements indicate carrier capture times as short as 120 fs. These capture times are strongly correlated wit… Show more

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Cited by 125 publications
(91 citation statements)
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“…Differential reflection measurements on QD layers with ∼100nm vertical separation showed sub-ps carrier capture from bulk GaAs into the wetting layer and ∼1.5 ps capture time into the QDs [20]. Additionally, the periodicity of embedded QD layers has been shown to also strongly influence the carrier capture time [21].…”
Section: Qd Structuresmentioning
confidence: 99%
“…Differential reflection measurements on QD layers with ∼100nm vertical separation showed sub-ps carrier capture from bulk GaAs into the wetting layer and ∼1.5 ps capture time into the QDs [20]. Additionally, the periodicity of embedded QD layers has been shown to also strongly influence the carrier capture time [21].…”
Section: Qd Structuresmentioning
confidence: 99%
“…Hybridized metal nanostructure/GaAs systems controlled by ultrafast optical pulses can achieve much faster switching than is attainable by phase change, voltage-driven carrier injection, liquid crystals or the modulation of superconductivity 2 . Interest in the embedded nanoparticle ErAs:GaAs composite system stems from the ability to control the optical and electronic properties of GaAs by incorporating semimetallic ErAs nanoparticles without altering the position of the GaAs bandgap 3 and retaining high quality, atomically sharp ErAs/GaAs interfaces 4,5 . The composite systems display tunable photo-carrier relaxation with ultrashort relaxation times spanning two orders of magnitude 3,6 , while achieving greater film quality 1,7-9 and transport characteristics than low temperature grown GaAs 1,10-16 .…”
mentioning
confidence: 99%
“…Interest in the embedded nanoparticle ErAs:GaAs composite system stems from the ability to control the optical and electronic properties of GaAs by incorporating semimetallic ErAs nanoparticles without altering the position of the GaAs bandgap 3 and retaining high quality, atomically sharp ErAs/GaAs interfaces 4,5 . The composite systems display tunable photo-carrier relaxation with ultrashort relaxation times spanning two orders of magnitude 3,6 , while achieving greater film quality 1,7-9 and transport characteristics than low temperature grown GaAs 1,10-16 . These features have made the ErAs:GaAs system highly promising for integration into GaAs-based opto-electronic devices 6,14,[17][18][19][20][21] .…”
mentioning
confidence: 99%
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