Dynamics of Coulomb-correlated electron-hole pairs in disordered semiconductor nanowires

2); (2) Budapest University of Technology; (3) Ecole Polytechnique Federale de Lausanne; C. Schlichenmaier (1); Economics; Germany; Hungary; I. Varga (1; K. Maschke (3); P. Thomas (1)

arxiv: cond-mat/0111452 · v1 · submitted 2001-11-23 · ❄️ cond-mat.dis-nn

Dynamics of Coulomb-correlated electron-hole pairs in disordered semiconductor nanowires

I. Varga (1 , 2) , C. Schlichenmaier (1) , T. Meier (1) , K. Maschke (3) , P. Thomas (1) , S.W. Koch (1) ((1) Philipps Universitaet Marburg , Germany

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(2) Budapest University of Technology Economics Hungary (3) Ecole Polytechnique Federale de Lausanne Switzerland)

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classification ❄️ cond-mat.dis-nn

keywords dynamicsgeneratedpairsdisorderedechoelectron-holefull-gappulses

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The dynamics of optically generated electron-hole pairs is investigated in a disordered semiconductor nanowire. The particle pairs are generated by short laser pulses and their dynamics is followed using the Heisenberg equation of motion. Is is shown that Coulomb-correlation acts against localization in the case of the two-interacting particles (TIP) problem. Furthermore, currents are generated using a coherent combination of full-gap and half-gap pulses. The subsequent application of a full-gap pulse after time $\tau$ produces an intraband echo phenomenon $2\tau$ time later. The echo current is shown to depend on the mass ratio between the electrons and the holes.

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Dynamics of Coulomb-correlated electron-hole pairs in disordered semiconductor nanowires

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