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Carrier capture and relaxation in charged quantum dots triggered by vibrational relaxation

✍ Scribed by A.M. Kechiantz; K.W. Sun

Publisher
Elsevier Science
Year
2008
Tongue
English
Weight
420 KB
Volume
40
Category
Article
ISSN
1386-9477

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✦ Synopsis

Local polarization and the strain of the crystal lattice around the charged quantum dot in semiconductors must vibrate to relax when the mobile carrier is captured by the dot and makes it uncharged. Triggered vibrations induce the sudden perturbation of electronic states in the quantum dot. The Hamiltonian of electron interaction with a local vibrating field and carrier capture time are calculated. It is shown that the principle of uncertainty has a strong influence on this effect. The calculated values of electron capture time are on a subpicosecond timescale at a high pumping intensity, and are strongly dependent on the scale of quantum confinement. The calculations fit well with photoluminescence rising times t ΒΌ 0.45 ps [K.

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