Paper
11 June 2002 Picosecond Raman studies of field-induced transient hole transport in an Al0.3Ga0.7As-based p-i-n nanostructure
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Abstract
Electric field-induced transient hole transport in an Al0.3Ga0.7As-based p-i-n nanostructure has been studied by picosecond Raman spectroscopy at T=300K. Our experimental results demonstrate that at T=300K, for a 5-ps excitation laser pulse and a hole density of nhapproximately equals 5x1017cm-3, transient hole drift velocity increases from zero to approximately equals (3+/- 0.7)x106cm/sec when the applied electric field intensity increases from E=0 to 15 kV/cm. The transient hole drift velocity then becomes saturated at approximately equals (8+/- 0.8)x106cm/sec for the applied electric field intensity of E>=25 kV/cm and up to 65 kV/cm.
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Y. Chen, Kong-Thon F. Tsen, Otto F. Sankey, and David K. Ferry "Picosecond Raman studies of field-induced transient hole transport in an Al0.3Ga0.7As-based p-i-n nanostructure", Proc. SPIE 4643, Ultrafast Phenomena in Semiconductors VI, (11 June 2002); https://doi.org/10.1117/12.470428
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KEYWORDS
Nanostructures

Luminescence

Raman spectroscopy

Semiconductors

Picosecond phenomena

Electron transport

Surface plasmons

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