1993
DOI: 10.1103/physrevb.48.17818
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Spectral-hole burning and carrier thermalization in GaAs at room temperature

Abstract: We report on femtosecond time-resolved transmission and reflectivity measurements on bulk GaAs. Spectral-hole burning is observed, to our knowledge, for the first time in GaAs at room temperature. Carrier thermalization occurs within 200 fs and shows no significant dependence on excitation density or excess energy in the range from 2 x 10 cm to 2 x 10 cm and 35 meV to 90 meV, respectively. Calculations of the carrier dynamics are performed and include full dynamic screening of the carrier-carrier and the carri… Show more

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Cited by 52 publications
(39 citation statements)
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“…In the same density range, the thermalization of nonequilibrium electrons has been determined to be 200 fs at room temperature and at the same photon energy. 21 However, the dephasing time of the coupled phonon-plasmon oscillations is found to be about three times longer than the thermalization time of 200 fs. We attribute this result to the phononlike part of the coupled mode, which does not lose its coherence even in the presence of much faster momentum scattering rates within the carrier plasma.…”
mentioning
confidence: 97%
“…In the same density range, the thermalization of nonequilibrium electrons has been determined to be 200 fs at room temperature and at the same photon energy. 21 However, the dephasing time of the coupled phonon-plasmon oscillations is found to be about three times longer than the thermalization time of 200 fs. We attribute this result to the phononlike part of the coupled mode, which does not lose its coherence even in the presence of much faster momentum scattering rates within the carrier plasma.…”
mentioning
confidence: 97%
“…1,2 Since the density of states in the conduction band is generally much lower than that of the valence band, in most studies the experimental signals are dominated by the dynamics of optically excited electrons. 3 Only in a few specific experiments could information on the hole relaxation dynamics be obtained in special sample structures. [4][5][6][7][8] In these studies, holes were excited with a certain excess energy and subsequent cooling processes were observed.…”
mentioning
confidence: 99%
“…In this case, the hole dynamics at elevated lattice temperatures is expected to be dominated by the absorption of longitudinal optical ͑LO͒ phonons that leads to a heating of the initial hole distribution. 3,7 In this letter, we investigate the intervalence band thermalization of optically excited holes. Femtosecond timeresolved measurements of the bleaching of the heavy-hole ͑HH͒ and light-hole ͑LH͒ exciton transition in a GaAs multi quantum well ͑MQW͒ sample are performed.…”
mentioning
confidence: 99%
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“…The line shape of the PT spectra indicates that one observes only a bleaching of the excitonic absorption but no noticeable broadening or shift of the excitonic resonances. The latter is explained by the fact that the reduction of the exciton binding energy due to screening is compensated by band-gap renormalization [25][26][27] resulting from a change of the single particle states under photoexcitation.…”
Section: Results and Discussion Of The Carrier Capturementioning
confidence: 99%